Qigong is considered a collective term for a long-established, extensive set of exercises first created in China more than 2,000 years ago. As many Eastern medicinal practices continue to gain popularity in the West — including acupuncture, meditation, Ayurveda and yoga — qigong and Tai Chi are also going mainstream. Multifaceted Health Benefits of Medical Qigong J. Alt Compl Med. 2004; 10(1):163-166. By Kenneth M. Sancier, Ph.D. Devatara Holman MS, MA, LAc Introduction It is a challenge for the Western mind to understand the function of Qi in the context of bodily functions as defined by science. According to Chinese medicine and Qigong theory, Qi has an.
Qigong Eye Exercises & Natural Eye Care. Qigong vision therapy incorporates both eye exercises and other natural eye care habits. In addition, tai chi qigong is holistic in its perspective on health, looking at both root causes and healing of disease. That is why treatment always focuses on whole mind and body. Medical Benefits of Qigong Today, research from China, Europe and the United States is demonstrating a wide variety of conditions that can be improved with regular qigong practice. Several studies reveal that short-term practice leads to minor improvements, while long-term practice (more than a year) yields much better results. Qigong Exercises For Beginners Welcome to Qigong exercises for beginners where you can learn about the energising and healing benefits of Qigong. There are many medical studies on the benefits of Qigong and how they can alleviate chronic conditions and in some cases bring about a complete remission. This site was created with the complete. One of the biggest benefits of qigong is to balance and strengthen your internal organs. There are typical qigong exercises to enhance your organ health. For instance, you may prevent heart attack, tuberculosis, or hepatitis through specific qigong exercises.
Research examining psychological and physiological benefits of Qigong and Tai Chi is growing rapidly. The many practices described as Qigong or Tai Chi have similar theoretical roots, proposed mechanisms of action and expected benefits. Research trials and reviews, however, treat them as separate targets of examination. This review examines the evidence for achieving outcomes from randomized controlled trials (RCTs) of both.
The key words tai chi, taiji, and qigong were entered into electronic search engines for the Cumulative Index for Allied Health and Nursing (CINAHL), Psychological Literature (PsychInfo), PubMed, Cochrane database, and Google Scholar.
RCTs reporting on the results of Qigong or Tai Chi interventions and published in peer reviewed journals published from 1993–2007
Country, type and duration of activity, number/type of subjects, control conditions, and reported outcomes were recorded for each study.
Outcomes related to Qigong and Tai Chi practice were identified and evaluated.
Seventy-seven articles met the inclusion criteria. The 9 outcome category groupings that emerged were: bone density (n=4), cardiopulmonary effects (n=19), physical function (n=16), falls and related risk factors (n=23), Quality of Life (n=17), self-efficacy (n=8), patient reported outcomes (n=13), psychological symptoms (n=27), and immune function (n=6).
Research has demonstrated consistent, significant results for a number of health benefits in RCTs, evidencing progress toward recognizing the similarity and equivalence of Qigong and Tai Chi.
A substantial body of published research has examined the health benefits of Tai Chi (also called Taiji) a traditional Chinese wellness practice. In addition, a strong body of research is also emerging for Qigong, an even more ancient traditional Chinese wellness practice that has similar characteristics to Tai Chi. Qigong and Tai Chi have been proposed, along with Yoga and Pranayama from India, to constitute a unique category or type of exercise referred to currently as meditative movement. These two forms of meditative movement, Qigong and Tai Chi, are close relatives having shared theoretical roots, common operational components, and similar links to the wellness and health promoting aspects of traditional Chinese medicine. They are nearly identical in practical application in the health enhancement context and share much overlap in what traditional Chinese medicine describes as the “three regulations”: body focus (posture and movement), breath focus, and mind focus (meditative components)., 2
Due to the similarity of Qigong and Tai Chi, this review of the state of the science for these forms of meditative movement will investigate the benefits of both forms together. In presenting evidence for a variety of health benefits, many of which are attributable to both practices, we will point to the magnitude of the combined literature and suggest under what circumstances Qigong and Tai Chi may be considered as potentially equivalent interventions, with recommendations for standards and further research to clarify this potential.
Previously published reviews have reported on specific outcomes of either Tai Chi or Qigong, mostly addressing only one of these practices, and rarely taking into account the similarity of the two forms and their similar outcomes. These reviews have covered a wide variety of outcomes, with many focused on specific diseases or symptoms including: hypertension; cardiovascular disease;, cancer;– arthritic disease; stroke rehabilitation; aerobic capacity; falls and balance;, bone mineral density; and shingles-related immunity, with varying degrees of support noted for outcomes in response to Qigong or Tai Chi.
Other reviews have addressed a broad spectrum of outcomes to demonstrate how Qigong– or Tai Chi–26 have demonstrated improvements for participants with a variety of chronic health problems or with vulnerable older adults. While many of these reviews have utilized selection criteria which restrict their focus to rigorous empirical studies, others have used less stringent criteria. The purpose of this review is to evaluate the current evidence for a broad range of health benefits for both Qigong and Tai Chi using only randomized controlled trials (RCTs), and to evaluate the potential of treating these two forms of meditative movement as equivalent forms. A complete description of Qigong and Tai Chi is presented and the equivalence of their theoretical roots and their common elements of practice are established. Then, the body of evidence for outcomes in response to Qigong and Tai Chi is reviewed to examine the range of health benefits. Finally, to more critically evaluate similarities across studies of the two practices we discuss the potential of treating them as equivalent interventions in research and the interpretation of results across studies.
Research Question 1: What health benefits are evidenced from RCTs of Qigong and Tai Chi?
Research Question 2: In examining the Qigong and Tai Chi practices incorporated in research, and the evidence for health benefits commensurate with each, what claims can be made for equivalence of these two forms of practice/exercise that have typically been considered to be separate and different?
Qigong is, definitively, more ancient in origin than Tai Chi and it is the over-arching, more original discipline incorporating widely diverse practices designed to cultivate functional integrity and the enhancement of the life essence that the Chinese call Qi. Both Qigong and Tai Chi sessions incorporate a wide range of physical movements, including slow, meditative, flowing, dance-like motions. In addition, they both can include sitting or standing meditation postures as well as either gentle or vigorous body shaking. Most importantly, both incorporate the purposeful regulation of both breath and mind coordinated with the regulation of the body. Qigong and Tai Chi are both based on theoretical principles that are inherent to traditional Chinese medicine (TCM). In the ancient teachings of health-oriented Qigong and Tai Chi, the instructions for attaining the state of enhanced Qi capacity and function point to the purposeful coordination of body, breath and mind (paraphrased here): “Mind the body and the breath, and then clear the mind to distill the Heavenly elixir within.” This combination of self-awareness with self-correction of the posture and movement of the body, the flow of breath, and stilling of the mind, are thought to comprise a state which activates the natural self-regulatory (self-healing) capacity, stimulating the balanced release of endogenous neurohormones and a wide array of natural health recovery mechanisms which are evoked by the intentful integration of body and mind.
Despite variations among the myriad forms, we assert that health oriented Tai Chi and Qigong emphasize the same principles and practice elements. Given these similar foundations and the fashion in which Tai Chi has typically been modified for implementation in clinical research, we suggest that the research literature for these two forms of meditative movement should be considered as one body of evidence.
Qigong translates from Chinese to mean, roughly, to cultivate or enhance the inherent functional (energetic) essence of the human being. It is considered to be the contemporary offspring of some of the most ancient (before recorded history) healing and medical practices of Asia. Earliest forms of Qigong make up one of the historic roots of contemporary Traditional Chinese Medicine (TCM) theory and practice.2 Many branches of Qigong have a health and medical focus and have been refined for well over 5000 years. Qigong purportedly allows individuals to cultivate the natural force or energy (“Qi”) in TCM that is associated with physiological and psychological functionality. Qi is the conceptual foundation of TCM in acupuncture, herbal medicine and Chinese physical therapy. It is considered to be a ubiquitous resource of nature that sustains human well-being and assists in healing disease as well as (according to TCM theory) having fundamental influence on all life and even the orderly function of celestial mechanics and the laws of physics. Qigong exercises consist of a series of orchestrated practices including body posture/movement, breath practice, and meditation, all designed to enhance Qi function (that is, drawing upon natural forces to optimize and balance energy within) through the attainment of deeply focused and relaxed states. From the perspective of Western thought and science, Qigong practices activate naturally occurring physiological and psychological mechanisms of self-repair and health recovery.
Also considered part of the overall domain of Qigong is “external Qigong” wherein a trained medical Qigong therapist diagnoses patients according to the principles of TCM and uses “emitted Qi” to foster healing. Both internal Qigong (personal practice) and external Qigong (clinician emitted Qi) are seen as affecting the balance and flow of energy and enhancing functionality in the body and the mind. For the purposes of our review, we are focused only on the individual, internal Qigong practice of exercises performed with the intent of cultivating enhanced function, inner Qi that is ample and unrestrained. This is the aspect of Qigong that parallels what is typically investigated in Tai Chi research.
There are thousands of forms of Qigong practice that have developed in different regions of China during various historic periods and that have been created by many specific teachers and schools. Some of these forms were designed for general health enhancement purposes and some for specific TCM diagnostic categories. Some were originally developed as rituals for spiritual practice, and others to empower greater skill in the martial arts. An overview of the research literature pertaining to internal Qigong yields more than a dozen forms that have been studied as they relate to health outcomes (e.g., Guo-lin, ChunDoSunBup, Vitality or Bu Zheng Qigong, Eight Brocade, Medical Qigong).2, 27–
The internal Qigong practices generally tested in health research (and that are addressed in this review), incorporate a range of simple movements (repeated and often flowing in nature), or postures (standing or sitting) and include a focused state of relaxed awareness and a variety of breathing techniques that accompany the movements or postures. A key underlying philosophy of the practice is that any form of Qigong has an effect on the cultivation of balance and harmony of Qi, positively influencing the human energy complex (Qi channels/pathways) which functions as a holistic, coherent and mutually interactive system.
Tai Chi translates to mean, “Grand Ultimate”, and in the Chinese culture, it represents an expansive philosophical and theoretical notion which describes the natural world (i.e., the universe) in the spontaneous state of dynamic balance between mutually interactive phenomena including the balance of light and dark, movement and stillness, waves and particles. Tai Chi, the exercise, is named after this concept and was originally developed both as a martial art (Tai Chi Chuan or taijiquan) and as a form of meditative movement. The practice of Tai Chi as meditative movement is expected to elicit functional balance internally for healing, stress neutralization, longevity, and personal tranquility. This form of Tai Chi is the focus of this review.
For numerous, complex sociological and political reasons,2 Tai Chi has become one of the best known forms of exercise or practice for refining Qi and is purported to enhance physiological and psychological function. The one factor that appears to differentiate Tai Chi from Qigong is that traditional Tai Chi is typically performed as a highly choreographed, lengthy, and complex series of movements, while health enhancement Qigong is typically a simpler, easy to learn, more repetitive practice. However, even the longer forms of Tai Chi incorporate many movements that are similar to Qigong exercises. Usually, the more complex Tai Chi routines include Qigong exercises as a warm-up, and emphasize the same basic principles for practice, that is, the three regulations of body focus, breath focus and mind focus. Therefore Qigong and Tai Chi, in the health promotion and wellness context, are operationally equivalent.
It is especially important to note that many of the RCTs investigating what is described as Tai Chi (for health enhancement), are actually not the traditional, lengthy, complex practices that match the formal definition of traditional Tai Chi. The Tai Chi used in research of both disease prevention and as a complement to medical intervention is often a “modified” Tai Chi (e.g., Tai Chi Easy, Tai Chi Chih, or “short forms” that greatly reduce the number of movements to be learned). The modifications generally simplify the practice, making the movements more like most health oriented Qigong exercises that are simple and repetitive, rather than a lengthy choreographed series of Tai Chi movements that take much longer to learn (and, for many participants, reportedly delay the experience of “settling” into the relaxation response). A partial list of examples of modified Tai Chi forms from the RCTs in the review are: balance exercises inspired by Tai Chi, Tai Chi for arthritis, 5 movements from Sun Tai Chi, Tai Chi Six Form, Yang Eight Form Easy,33, and Yang Five Core Movements.
In 2003, a panel of Qigong and Tai Chi experts was convened by the University of Illinois and the Blueprint for Physical Activity to explore this very point.35 The expert panel agreed that it is appropriate to modify (simplify) Tai Chi to more efficiently disseminate the benefits to populations in need of cost effective, safe and gentle methods of physical activity and stress reduction. These simplified forms of Tai Chi are very similar to the forms of Qigong used in health research.
For this reason, it is not only reasonable, but a critical contribution to the emerging research dialogue to review the RCTs that explore the health benefits resulting from both of these practices together, as one comprehensive evidence base for the meditative movement practices originating from China.
The following data bases were used to conduct literature searches for potentially relevant articles: Cumulative Index for Allied Health and Nursing (CINAHL), Psychological Literature (PsychInfo), PubMed, Google Scholar, and the Cochrane database. The key words included Tai Chi, Taiji, Tai Chi Chuan, and Qigong combined with RCT or with clinical research terms. Additional hand searches (based on word-of-mouth recommendations) completed the search for articles.
Criteria for inclusion of articles included that they: a) were published in a peer-reviewed English-language journal between 1993 and December, 2007; b) were cited in nursing, medical, or psychological literature; c) were designed to test the effects of Tai Chi or Qigong; and d) used a RCT research design. The literature search resulted in the identification of 576 articles to be considered for inclusion. The full texts of 158 articles appearing to meet initial criteria (a–d) were retrieved for further evaluation and to verify which ones were, in fact, RCTs, resulting in a final set of 77 articles meeting all of our inclusion criteria
Articles were read and results were entered into a table according to criteria established by the authors for categorization and evaluation of the studies and outcomes. Included in Table One for review and discussion are: country of study; type and number of patients randomized; duration and type of intervention and control condition; measured outcomes; and results. As the information was entered into the table it became apparent that some of the authors reported results from the same study in more than one article. Thus, the 77 articles selected actually represented 67 unique studies, with 1 study reporting a range of outcomes across 4 articles, and 5 other studies’ results published in 2 articles each. An additional two articles were not entered into the table, as the same results were reported in newer articles. Other than these two dropped articles, multiple articles are entered into the table as representing one study (see Table One) so that the full range of outcomes reported across the articles can be reported without inflating the number of studies.
Randomized Controlled Trials Testing Health Benefits of Qigong and Tai Chi
| Source | No. of Subjects/Mean Age Sex (Male/Femal e) | Exercise Duration (minutes × days per week) | Exercise Group | Control group | Reported Outcomes * P<.05 |
|---|---|---|---|---|---|
| Audette Jin Newcomer Stein Duncan & Frontera, 2006 USA | 27 Sedentary women 71.4 years 0/27 | 12 weeks (60 minutes × 3 days) | Tai Chi 10 movement Yang (n=11) | Brisk Walking (n=8); Usual Care (UC) later recruited and not randomized (n=8) | Cardiopulmonary: VO2 max ↑ in TC more than BW and UC*; heart rate variability, high frequency ↑ and low frequency ↓ in TC only* no between Falls and Balance: Strength, hand grip and knee extension ↑ TC only* and left knee extension ↑ in TC more than BW*; flexibility, only toe touch flexibility ↑ in TC more than BW*; and balance, only non-dominant one leg stance (OLS) with eyes closed ↑ in TC more than BW* |
| Barrow Bedford Ives O’Toole & Channer, 2007 UK | 52 Older adults history chronic heart failure 69.5 years 42/10 | 16 weeks (55 minutes × 2 days) | TC with Chi Kung (n=25) | Usual Care (n=27) | Cardiopulmonary: Incremental shuttle walk ↑ in TC more than UC ns Patient Reported Outcomes: Perceived symptoms of heart failure ↓ in TC more than UC* Psychological: Depression (SCL-90-R) ↓ in TC more than UC ns; anxiety ↓ in both groups ns |
| Brismee Paige Chyu Boatright Hagar McCaleb Quintela Feng Zu Shen, 2007 USA | 41 History of knee osteoarthritis 70 years 7/34 | 12 week TC and 6 week no training (40 minutes × 3 days/6 weeks group training and 6 weeks home training; and 6 weeks detraining) | TC Yang 24-form simplified (n=18) | 6 weeks of Health Lecture followed by no activity same as exercise group (n=13) | Physical Function: WOMAC ↑ in TC more than HL* with ↓ for detraining period Patient Reported Outcomes: Pain ↓ in TC more than HL*; adverse outcomes ns |
| Burini Farabollini Ianucci, Rimatori Riccardi Capecci Provinciali & Ceravolo, 2006 Italy | 26 History of Parkinson’s disease 65 years 9/17 | 7 weeks each of Aerobics (45 min × 3 days) and Qigong (50 min × 3 days) 20 sessions each with 8 weeks between sessions | Qigong (QG) (n=11) | Aerobic Training (AT) sessions (n=11) | Cardiopulmonary: 6-minute walk and Borg scale for breathlessness ↑ and spirometry and cardiopulmonary exercise test ↓ for AT more than QG* Patient Reported Outcomes: Parkinson’s Disease Questionnaire ns for both; Unified Parkinson’s Disease Rating Scale ns; Brown’s Disability Scale ns Psychological: Beck Depression Inventory ns |
| Chan Qin Lau Woo Au Choy Wingyee Lee & Lee, 2004 Hong Kong | 132 History of post-menopausal and sedentary 54 years 0/132 | 12 months (45 min 5 × days) | Tai Chi Chuan Yang Style (n=54) | UC (n=54) | Bone Density: Fractures (1 TC and 3 UC) BMD measured by Dual energy x-ray absorptiometry in femoral neck, ↓ in TC less than UC ns and trochanter ↓ both ns; peripheral quantitative computed tomography of distal and ultradistal tibia ↓ less in TC than UC* |
| Channer Barrow Barrow Osborne & Ives 1996 UK | 126 History of MI 58.5 years ?/? | 8 weeks (2 days × 3 weeks, then 1 day × 5 weeks) | TC Wu Chian-Ch’uan (n=38) | Aerobic Exercise (n=41) or Cardiac Support Group (n=41) discussed risk factor modification and problems in rehab. | Cardiopulmonary: Immediate SBP and DBP ↓ TC and AE ns and HR ↑ in AE more than TC*; Over time, SBP ↓ both ns and DBP and resting HR↓ in TC more than AE*; SG too small for comparison |
| Chen Yeh & Lee 2006 Taiwan | 87 History of BMD T ≥ −2.5 45 years 0/87 | 12 week (studied for 2 weeks, then 3 days/week) | QG Baduanjin (n=44) | No Qigong (n=43) | Bone Density: BMD maintained in QG and ↓ in NQ*; Immune/Inflammation: Interleukin-6↓ in QG and ↑ in NQ* |
| Cheung Lo Fong Chan Wong Wong Lam Lau Karlberg 2005 Hong Kong | 88 Older adults in community, history of hypertension 54.5 years 37/51 | 16 wk (120 min × 2 days × 4 weeks then monthly and encouraged to practice 60 min in AM and 15 min in PM × 7 days) | QG Guolin (n=37) | Exercise (n=39) | Cardiopulmonary: BP, HR, waist circumference, BMI, Total cholesterol, renin and 24 hour urinary protein excretion ↓ QG and E ns; ECG QG and E nc/ns QOL: SF-36 ↓ E ns Psychological: Beck Anxiety Inventory ↓ and Beck Depression Inventory ↑ QG and E ns |
| Choi Moon & Song 2005 South Korea | 59 Living in care facility, ambulatory with history of at least 1 fall risk factor 77.8 years 15/44 | 12 weeks (35 min × 3 days) | Tai Chi Sun-style (n=29) | UC (n=30) | Falls and Balance: Falls ns, but falls efficacy for TC ↑ and ↓ UC*; knee and ankle strength, OLS eyes open, and Toe reach ↑ and 6 meter walk ↓ more than UC*; OLS eyes open nc Self-efficacy: Falls efficacy for TC↑ and ↓ UC* |
| Chou Lee Yu Macfarlane Cheng Chan & Chi 2004 Hong Kong | 14 Community dwelling Chinese, history of depression from a psycho- geriatric clinic 72.6 years 7/7 | 3 months(45 min × 3 days) | Tai Chi Yang Style18 form (n=7) | Waitlist (n=7) | Psychological: Center for Epidemiological Studies Depression Scale ↓ TC more than W* |
| Elder, Ritenbaugh Mist Aickin Schneider Zwickey & Elmer 2007 USA | 92 History of completing 12 week wt loss intervention and loss of at least 3.5 kg 47.1 years 13/79 | 24 weeks (10 hours overall with 28 min qigong sessions) | Qigong Emie Zhen Gong (n=22) | Tapas Acupressure Technique (n=27) and Self-Directed Support (n=24) | Cardiopulmonary: Wt loss maintenance for TAT and ↑ QG and SDS* |
| Faber Bosscher Chin Paw & vanWieringe n 2006 Netherlands | 238 Frail (51%) or pre-frail (48.9%) older adults living in care facility 85 years 50/188 | 20 week (60 min exercise and 30 min social time × day × 4 weeks for socializatio n, then × 2 days for 16 weeks) | Tai Chi (balance exercises inspired by TC) (n=90) | Functional Walking (n=66) or UC (92) | Falls and Balance: Falls lower for TC more than FW and UC ns; When FW and TC combined, Fall risk↓ and physical function (6 meter walk, Timed chair stand, TUG, and FICSIT-4) ↑ compared to UC in pre-frail*, frail ns, also TC compared to FW ns Patient Reported Outcomes: Performance Oriented Mobility Assessment ↑ for TC and FW and exercise groups combined more than UC* and pre-frail*, frail ns; Groningen Activity Restriction Scale ↓ for FW more than control*TC vs UC ns |
| Fransen Nairn Winstanley Lam & Edmons 2007 Austrailia | 152 Older adults, history of chronic symptomatic hip or knee osteoarthritis 70.8 years 40/112 | 12 week (60 min × 2 days) | TC for Arthritis by Dr. Lam from Sun Style 24-forms (n=56) | Hydrotherapy (n=55) and Wait List control (n=41) | Physical Function: WOMAC: Pain and function ↓ TC and H ns with treatment effect for physical function moderate*; pain score ↓ for H compared to WL*, TC ns; Physical performance: TUG, 50-foot walk, and stair climb ↓ more for H than WL*; and timed stair climb for ↓ TC and H ns QOL: SF-12 Physical ↑ H more than WL* and TC more than WL borderline*; SF-12 Mental ns Patient Reported Outcomes: Pain and function ↓ TC and H ns Psychological: Depression Anxiety & Stress 21 ↓ in H* and TC ns |
| Galantino Shepard Krafft Laperriere Ducette Sorbello Barnish Condoluci & Farrar 2005 USA | 38 History of long term care of HIV/AIDS Between 20 and 60 38/0 | 8 weeks (60 minx 2 days) | TC (n=13) | Aerobic Exercise (n=13) and UC (n=12) | Physical Function: FR, SR, Sit Up, and Physical Performance Test all improved more than UC* and TC compared to AE nc QOL: Medical Outcomes Short Form-HIV improved TC and AE more than control*; Spiritual Well Being improved TC AE and UC ns Psychological: Profile of Mood States improved TC and AE more than control* |
| Gatts and Woollacott 2006 USA | 19 Balance impaired seniors 68–92 years 2/17 | 3 weeks (90 min × 5 days) | Tai Chi Twelve Classical Tai Chi Postures (n=11) | TC Based and axial mobility program; same group practiced TC after control time (n=8) | Falls and Balance: TUG ↓ more for TC than control*; FR↑ for TC and control; OLS and tandem stance both legs ↑ more TC than control*; tibialis anterior more ↑ for TC than control*; gastrocnemius ↑ only TC after control time* |
| Gemmell & Leathem 2006 New Zealand | 18 History of traumatic brain injury symptoms 45.7 years 9/9 | 6 weeks (45 min × 2 days) | TC Chen Style (n=9) | Waitlist UC (n=9) | QOL: SF-36 and Rosenberg Self-Esteem Scale no different ns except role emotional ↑ TC more than UC* Psychological: Visual Analogue Mood Scales improved TC more than UC*; Rosenberg Self-Esteem Scale nc, ns |
| Greenspan Wolf Kelley O’Grady 2007 USA | 269 Congregate independent living, transitionally frail with at least 1 fall in past year >70 years and 50% over 80 0/269 | 48 week (60 increasing to 90 min × 2 days) | TC 6 simplified forms (n=103) | Wellness Education (n=102) | Physical Function: Sickness Impact Profile for physical function and ambulation ↓ more TC than WE* Patient Reported Outcomes: Sickness Impact Profile and physical and ambulation perceived health status ↓ TC more than WE* and Self Reported Health nc TC and WE ns |
| Hammond & Freeman 2006 UK | 133 History of fibromyalgia from a rheumatology outpatient department 48.53 years 13/120 | 10 weeks (45 min × 1 day) | Tai Chi for Arthritis (part of patient Education group including fibromyalg ia informatio n, postural training, stretching and weights) (n=52) | Relaxation Group (n=49) | Self-efficacy: Arthritis Self-Efficacy Scale ↑ TC more than RG at 4 months* at 8 months ns Patient Reported Outcomes: Fibromyalgia Impact Questionnaire ↓ TC more than RG* at 4 months* at 8 months ns Psychological: Anxiety and depression TC and TG ns |
| Hart Kanner Gilboa-Mayo Haroeh-Peer Rozenthul-Sorokin Eldar 2004 Israel | 18 History of stroke, community- dwelling 54.77 years 16/2 | 12 weeks (60 min × 2 days) | TCC (n=9) | Balance Exercises (n=9) | Falls and Balance: BBS, OLS, Emory Fractional Ambulation Profile, Romberg, TUG improved in BE*, not TCC ns QOL: Duke Health Profile improved TC*, not BE ns |
| Hartman Manos Winter Hartman Li & Smith 2000 USA | 33 Community dwelling with lower extremity osteoarthritis 68 years 4/28 | 12 weeks (60 min × 2 days) | TC 9 form Yang (n=18) | Usual Care with phone calls every 2 weeks to discuss issues related to Osteoarthritis (n=15) | Physical Function: OLS, 50-ft walk, and chair rise TC and UC ns with small to moderate effect size for TC only QOL: Arthritis Impact Measurement Scale II(satisfaction with life) ↑ and tension ↓ more for TC than UC* Pain and mood both ns Self-efficacy: Arthritis self-efficacy ↑ TC more than UC* |
| Hass Gregor Waddell Oliver Smith Fleming Wolf 2004 USA | 28 Older adults transitioning to frailty 79.6 years ?/? | 48 weeks(60 min × 2 days) | Tai Chi 8 of 24 simplified forms (n=14) | Wellness Education (n=14) | Falls and Balance: Center of pressure during S1 and S2 improved for TC more than WE* S3 for both ns |
| Irwin Olmstead & Oxman 2007 USA | 112 Healthy older adults 70 years 41/71 | 16 weeks (40 min × 3 days) | Tai Chi Chih (n=59) | Health Education (n=53) | QOL: SF-36 improved for physical functioning, bodily pain, vitality and mental health for TC more than HE*; Role emotional ↓ for HE more than TC*; Role physical, general health, and social functioning both groups ns Psychological: Beck Depression Score ↑ TC and HE ns Immune/Inflammation: Varicella zoster virus-Responder cell frequency ↑ TC more than HE* |
| Irwin Pike Cole & Oxman 2003 USA | 36 Healthy older adults 60 years 5/13 | 15 week (45 min × 3 days) | Tai chi Chih (n=14) | Wait List (n=17) | QOL: SF-36 only role-physical and physical functioning improved more for TC than WL* Immune/Inflammation: Varicella zoster virus-cell-mediated immunity ↑ more for TC than WL* |
| Jin 1992 Australia | 96 Tai Chi practitioners 36.2 years 48/48 | History of TC 46.4 mo males/34 months females 2 sessions of exposure to stress followed by respective treatment | Tai Chi Long form or Yang Style (n=24) | Brisk Walking (n=24), TC Meditation (n=24), and Neutral Reading (n=24) | Psychological: Profile of Mood States improved all treatments* with state anxiety ↓ in TC more than reading*; BP and HR ↑ under stress for TC and BW more than M and NR*; Adrenaline ↓ more for TC than M*; noradrenaline ↑ more for TC than NR*; and salivary cortisol ↑ all groups* |
| Judge Lindser Underwook & Winsemius 1993 USA | 21 Sedentary women 68 years 0/21 | 6 months(20 min walking plus other exercise × 3 days for TC and no exercise for 12 weeks, then 30 min x1 day for FT) | Tai Chi simple with strength training and walking (n=12) | Flexibility Training (n=9) | Falls and Balance: OLS ↑ more for TC than FT ns; knee extension ↑ more for TC than FT*; and sitting leg press improved TC and FT ns |
| Kutner, Barnhart, Wolf, McNeely, & Xu 1997 USA | 130 TC Balance training and control mostly women/Healthy older adults 76.2 years ?/? | 15 weeks (45 min total × 2 days TC and 1 day BT and ED) | TC 10 modified forms from 108 (n=51) | Balance Training (n=39) and Education Control (n=40) | QOL: SF-36 all groups nc Self-efficacy: Self confidence ↑ more for TC and BT than EC* Psychological: Rosenberg self esteem ↑ more TC than BT or EC ns |
| Lansinger Larsson Persson & Carlsson 2007 Sweden | 122 History of long term nonspecific neck pain 43.8 years 36/86 | 3 month (1 hour × 1–2 days/week × 10–12 sessions) | Qigong Biyun (n=60) | Exercise Therapy (n=62) | Physical Function: Grip strength and Cervical ROM ↑ both groups ns Patient Reported Outcomes: Neck pain and Neck Disability Index ↓ both groups ns |
| Lee Lee Kim & Choi 2004a AND Lee Lim & Lee 2004b Korea | 36 History of hypertension 53.4 years 14/22 | 8 wk (30 min × 2 days) | Qigong Shuxinping xuegong (n=17) | WaitList (n=19) | Cardiopulmonary: (2004a) BP ↓ more in QG than WL*; HDL and APO-A1 ↑ more in QG than WL*; high-density lipoprotein and Apolipoprotein A1 ↑ and total cholesterol ↓ in QG pre-post*; Triglycerides ↓ in QG and ↑ in WL ns Self-efficacy: (2004b) Self efficacy and perceived benefits↑ in QG and ↓ in WL* Psychological: (2004b) Emotional state ↑ in QG and ↓ in WL* |
| Lee Lee Kim & Moon 2003a AND Lee Lee Choi & Chung 2003b Korea | 58 History of hypertension 56.2 years | 10 weeks (30 min × 3 days) | Qigong Shuxinping xuegong (n=29) | UC WaitList (n=29) | Cardiopulmonary: (2003a) HR ↓ more in QG than WL*; Epinephrine and norepinephrine ↓ for QG and ↑ for WL*; cortisol ↓ for QG and ↑ for WL ns Psychological: (2003a) Self report stress↓ QG more than WL*; Epinephrine and norepinephrine ↓ for QG and ↑ for WL*; cortisol ↓ for QG and ↑ for WL ns Cardiopulmonary: (2003b) BP and catecholamines ↓ for QG and ↑ for UC*; Ventilatory function ↑ more for QG than UC* |
| Lee Y. K. Lee & Woo 2007a Hong Kong | 139 Resident of care facility, ambulatory, Chinese and 82.7 years 45/96 | 26 weeks (60 min × 3 days) | Tai Chi (n=66) | UC (n=73) | QOL: Health Related Quality of Life ↑ TC more than UC* Psychological Symptoms: Self Esteem ↑ TC more than UC* |
| Li Fisher Harmer & Shirai 2003 USA | 48 Older adults 68.88 years | 3 months (3 days/wk) | Tai Chi Yang 8- form easy Tai Chi (n=26) | Stretching Control (n=22) | Falls and Balance: OLS improved TC more than SC* Physical Function: SF-12 physical, instrumental activities of daily living, 50-ft walk, and chair rise all improved TC more than SC* Psychological: SF-12 mental ↑ more TC than SC* |
| Li Fisher Harmer Irbe Tearse & Weimer 2004 USA | 118 History of moderate sleep complaints and community dwelling adults 75.4 years 22/96 | 24 week (60 min × 3 days) | Tai chi Yang (n=62) | Exercise Control (n=56) | Physical Function: OLS and SF-12 physical ↑; and chair rise and 50-ft walk ↓ TC more than EC* Patient Reported Outcomes: Sleep duration and efficiency ↑ and sleep quality, latency, duration, and disturbances; Epworth Sleepiness Scale; and Pittsburg Sleep Quality Index ↓ more for TC than EC*; Sleep dysfunction both and medication ↓ TC only ns Psychological: SF-12 mental ↑ both ns |
| Li Harmer Fisher McAuley Chaumeton Eckstrom & Wilson 2005b AND Li Fisher Harmer & McAuley 2005a USA | 256 Sedentary 77.48 years 77/179 | 6 month (60 min × 2 days) | TC Yang Style 24 forms (n=125) | Stretching Control (n=131) | Falls and Balance: (2005b) Fewer falls and fewer injurious falls for TC than SC*; and BBS, Dyamic Gait Index, FR and OLS ↑ and 50 ft walk and TUG ↓ more for TC than SC* all sustained at 6 month follow-up Falls and Balance: (2005a) Activities Specific Balance ↑ more for TC than SC* Self-efficacy: (2005a) Falls Self-efficacy↑ (mediator) and fear of falling (SAFFE) ↓ more for TC than SC* Psychological: Fear of falling (SAFFE) ↓ more for TC than SC* |
| Li Harmer McAuley Duncan Duncan Chaumeton & Fisher 2001a USA | 49 Sedentary and community dwelling 72.8 years 9/85 | 6 month (60 min × 2 days) | Tai Chi Yang style 24 forms (n=49) | WaitList (n=45) | Physical Function: SF-20 (physical function) ↑ more TC than WL* |
| Li Harmer McAuley Fisher Duncan & Duncan 2001b AND Li Fisher Harmer & McAuley 2002 AND Li Harmer Chaumeton Duncan Duncan 2002 AND Li McAuley Harmer Duncan & Chaumeton 2001 USA | 94 Sedentary 72.8 years 9/85 | 6 month (60 min × 2 days) | Tai Chi Yang style 24 forms (n=49) | WaitList (n=45) | Physical Function: (2001b) SF-20 physical Function ↑ among TC more than WL over time* r scores Self-efficacy: (2001b) Self-efficacy ↑ among TC more than WL over time* r scores QOL: (2002) SF −20 (General Health Survey) ↑ more for TC than WL*; TC with lower levels of health perception, physical function, and high depression at baseline and Movement confidence ↑ = ↑ physical function * Psychological: (2002) Physical function self-esteem and Rosenberg self-esteem ↑ more for TC than WL* Self-efficacy: (2001) Barrier and performance Self-efficacy ↑ TC more than WL*; exercise adherence ↑ TC than WL*; and SE conditions related to adherence for TC |
| Maciaszek Osinski Szeklicki & Stemplewske 2007 Poland | 49 Sedentary, history of osteopenia or osteoporosis 60 to 82.1 years 49/0 | 18 week (45 min × 2 days) 3 month (20 min × 1 day) | Tai Chi 24 form (n=25) | UC (n=24) | Falls and Balance: Posturographic Platform (time ↓; % task performance and total length of path ↑ for TC*; and % task performance and total length of path ↑ more for TC than UC* |
| Mannerkorpi & Arndorw 2004 Sweden | 36 History of Fibromyalgia 45 years 0/36 | Qigong with Body Awareness (n=19) | UC (n=17) | Physical Function: Chair stand and hand grip TC and UC ns Patient Reported Outcomes: Body Awareness ↑ TC more than UC*; fibromyalgia symptoms TC and UC ns | |
| Manzaneque Vera Maldonado Carranque et al. 2004 Spain | 29 Healthy young adults 18–21 14/15 | 1 month (30min × 5 days) | Qigong Eight Pieces of Brocade (low intensity) (n=16) | UC (n=13) | Immune/Inflammation: Leukocytes, eosoinophils, monocytes, and C3 levels ↓ TC than UC*; trend for neutrophils; and total lymphocytes, T lymphocytes, t helper lymphocytes, concentrations of complement C4 or immunoglobulins ns |
| McGibbon Krebs Parker Scarborough Wayne & Wolf 2005 USA | 36 History of vestibulopath y 59.5 years 16/20 | 10 weeks (70 min × 1 day) | Tai Chi Yang (n=19) | Vestibular Rehabilitation (n=12) | Falls and Balance: Gait speed ↑ TC more than VR*; step length ↑ for TC and VR*; stance duration ↓ VR* more than TC; Step width ↑ VR and TC ns: Mechanical energy expenditure (hip ↓ TC more than VR*; ankle ↑ more for TC than VR*; knee and leg both ns); Peak trunk forward velocity ↑ TC more than VR*; forward velocity range and peak or range of lateral trunk velocity TC and VR ns; Peak trunk angular velocity ↑ more for VR than TC*; and trunk angular velocity in frontal plane and change in peak and range TC and VR ns; Trunk velocity peak and range positively correlated with change in leg mechanical energy expenditure for TC* and VR negative relationship |
| McGibbon Krebs Wolf Wayne Scarborough & Parker 2004 USA | 26 History of Vestibulopath y 56.2 years 11/15 | 10 weeks (70 min × 1 day) | Tai Chi Yang (n=13) | Vestibular Rehabilitation (n=13) | Falls and Balance: Gaze stability ↑ more for VR than TC*; Whole-body stability and foot fall stability ↑ more for TC than VR*; Correlation between change in gaze stability and whole-body stability, and foot-fall stability and gaze stability for VR not TC*; Correlation between foot-fall stability and whole-body stability for VR and TC* |
| Motivala Sollers Thayer & Irwin 2006 USA | 32 out of 63 who completed RCT for Herpes Zoster risk in aging study 68.5 years 14/18 | 37 week TC (? Min × 1 day) | TCC (n=19) | Passive-Rest and slow moving physical movement (n=19) | Cardiopulmonary: Pre-ejection period ↑ post task more for TC than PR*; BP and HR TC and PR ns |
| Mustian Katula Gill Roscoe Lang & Murphy 2004 AND Mustian Katula & Zhao 2006 USA | 21 History of breast cancer 52 years 0/21 | 12 week (60 min × 3 days) | Tai Chi Yang and Chi Kung (n=11) | Psychosocial Support (n=10) | Cardiopulmonary: (2006) 6-minute walk ↑ for TC and ↓ for PS*; aerobic capacity ↑ for TC and ↓ for PS ns Physical Function: (2006) Muscle strength (hand grip ↑ for TC and ↓ for PS*); and flexibility (abduction ↑ TC and PS, flexion, extension, horizontal adduction and abduction ↑ more for TC than PS*; and body fat mass ↓ for TC and ↑ for PS ns QOL: (2004) Health Related Quality Of Life ↑ for TC* and ↓ PS ns Psychological: (2004) Self esteem ↑ for TC and ↓ for PS* |
| Nowalk Prendergast Bayles D’Amico & Colvin 2001 USA | 110 Long term care residents 84 years 7/48 | 13 to 28 months (3 × week) | Tai Chi with behavioral component (n=38) | Physical therapy weight training (n=37) and Education Control (n=35) | Falls and Balance: Falls No difference between groups |
| Pippa Manzoli Corti Congedo Romanazzi & Parruti 2007 Italy | 43 History of stable chronic atrial fibrillation 68 years 30/13 | 16 week (90 minutes × 2 days) | Qigong (n=22) | Wait-List control (n=21) | Cardiopulmonary: 6-minute walk ↑ for QG and ↓ for WL*; Ejection fraction, BMI, cholesterol ns |
| Sattin Easley Wolf Chen & Kutner 2005 USA | 217 Transitionally frail with history of 1 or more falls in past year (55 African Americans) 70–97 years 12/205 | 48 weeks (60–90 min × 2 days) | Tai Chi 6 of 24 Simplified (n=158) | Wellness Education (n=153) | Falls and Balance: Activities Specific Balance ↑ more among TC than WE* Psychological: Falls Efficacy Scale ↓ more among TC than WE* |
| Shen Williams Chyu Paige Stephens Chauncey Prabhu Ferris & Yeh 2007 USA | 28 Sedentary from a senior living facility 79.1 years 7/21 | 24 week (40 min × 3 days) | TC Yang Style Simplified 24 forms (n=14) | Resistance Training (n=14) | Bone Density: Sedentary older adults on bone metabolism (Serum Bone Specific alkaline phosphatase/Urinary Pyridinoline ↑ more for TC than RT at 6 weeks* and TC returned to baseline and RT less than baseline*; Parathyroid hormone ↑ more for TC than RT at 12 weeks*; serum 1,25-vitamin D3 TC and RT ns; serum calcium ↑ more for TC than RT at 12 weeks compared to 6 weeks*; urinary calcium ↓ for TC* not RT; serum and urinary Pi TC and RT ns |
| Song Lee Lam & Bae 2003 AND Song Lee Lam & Bae 2007 Korea | 72 History of osteoarthritis and no exercise for 1 year prior 63 years 0/72 | 12 week (60 min × 3 days for 2 weeks then × 1 day for 10 weeks) | Tai Chi Sun Style modified for arthritics (n=22) | UC (n=21) | Cardiopulmonary: (2003) BMI, 13 minute ergometer TC and UC ns Falls and Balance: (2003) OLS, trunk flexion and sit ups ↑ more for TC than UC*; Flexibility and knee strength TC and UC ns Patient Reported Outcomes: (2007) Pain and stiffness ↓ and perceived benefits ↑ more for TC than UC*;TC performed more health behaviors than UC* |
| Stenlund Lindstrom Granlund & Burell 2005 Sweden | 95 History of coronary artery disease 77.5 years 66/29 | 12 weeks (60 min QG and 120 min of discussion on various themes) | Qigong (TC & Medicinsk Qigong) (n=48) | UC (n=47) | Falls and Balance: Falls Efficacy Scale, tandem standing, OLS Left, Climb boxes Left TC and UC ns; OLS Right and climb boxes right ↑ more for TC than UC*; and co-ordination ↓ more for UC than TC*; and Self reported activity level ↑ for TC more than UC* Psychological: Fear of falling between TC and UC ns |
| Thomas Hong Tomlinson Lau Lam Sanderson & Woot 2005 Hong Kong | 207 Healthy, community dwelling 68.8 years 113/94 | 12 months(60 min × 3 days) | Tai Chi Yang style 24 forms (n=64) | Resistance Training (n=65) or UC (n=78) | Cardiopulmonary: Energy expenditure ↑ for TC and RT more than UC ns; Waist circumference and HR ↓ more TC and RT than UC ns; Insulin sensitivity ↓ more for RT than UC* and more for TC than UC ns; BMI, body fat, BP, Cholesterol, and glucose TC, RT, and UC ns |
| Tsai Wang Chan Lin Wang Tomlinson Hsieh Yang & Liu 2003 Taiwan | 76 Sedentary with pre- hypertension or Stage I 52 years 38/38 | 12 wk ( 50 min × 3 days) | Tai Chi Yang (n=37) | UC (n=39) | Cardiopulmonary: BP& total cholesterol ↓ for TC* and ↑ for UC ns; BMI and HR TC and UC ns; Triglyceride ↓ TC* and ↑ UC*; LDL ↓ TC* and ↑ UC ns; High- density lipoprotein ↑ TC* and ↓ UC ns Psychological: Trait and State anxiety ↓ TC* more than UC ns |
| Tsang H.W. Fung Chan Lee & Chan 2006 Hong Kong | 82 history of depression and chronic illness 82.4 years 16/66 | 16 weeks (30–45 min × 3 days) | Qigong Baduanjin (n=48) | Newspaper Reading group with same intensity (n=34) | QOL: Personal Well Being ↑ for QG and ↓ NR*; and General Health Questionnaire ↓ QG and ↑ NR*; and Self-concept ↓ more TC than NR* Self-efficacy: Chinese General Self-efficacy and Perceived Benefits Questionnaire ↑ more for QG than NR* Psychological: Geriatric Depression Scale ↓ more for QG than NR* |
| Tsang HW Mok Yeung & Chan 2003 Hong Kong | 50 History of chronic disease 74.6 years 26/24 | 12 week (60 min × 2 days) | Qigong Eight- Section Brocades (n=24) | Basic Rehabilitation activities (n=26) | QOL: Physical health, activities of daily living psychological health and social relationships improved for QG*; Self-concept and WHOQOL-BREF QG and BR ns Psychological: Geriatric Depression Scale ↓ TC and BR ns |
| Tsang T. Orr Lam Comino & Singh 2007 Australia | 38 Sedentary, community dwelling, type 2 diabetics 65.4 years 8/30 | 16 week (45 min × 2 days) | Tai Chi for diabetes (12 movement hybrid from Yang and Sun (n=17) | Sham Exercise (seated calisthenics and stretching) (n=20) | Physical Function: 6-minute walk, habitual and maximal gait speed, muscle strength and peak power ↑ TC more than SE ns; Endurance ↓ more for SE than TC ns; and Habitual Physical Activity ↑ TC and ↓ SE* Falls and Balance: Balance index ↓ TC and SE ns; OLS open ↑ TC and nc SE ns; OLS closed and tandem walk ↓ TC and SE ns; Falls 0–2 TC and SE ns QOL: SF-36 (except Social Function ↑ for TC and ↓ SE*) and Diabetes Integration Scale TC and SE ns |
| Voukelatos Cumming Lord & Rissel 2007 Australia | 702 Community dwelling 69 years 112/589 | 16 weeks (60 min × 1 day) | Tai Chi 38 Programs mostly Sun-style (83%) Yang (3%) (n=271) | Wait-List (n=256) | Falls and Balance: Sway on floor and foam mat, lateral stability, coordinated stability, and choice stepping reaction time improved TC more than WL*; Maximal leaning balance range ↑ TC more than WL ns; Fall rates less for TC (n=347) than WL (n=337)* |
| Wang Roubenoff Lau Kalish Schmid Tighiouart Rones & Hibberd 2005 USA | 20 Community dwelling with Rheumatoid Arthritic class I or II 49.5 years 5/15 | 12 week (60 min × 2 days) | Tai Chi Yang Style (n=10) | Stretching and Wellness Education (n=10) | Physical Function: Chair stand and 50-ft walk ↑ TC and WE ns; American College of Rheumatology 20 ↓ TC more than WE*; hand grip not reported; Health Assessment Questionnaire ↑ more TC than WE*; Erythrocyte sedimentation rate and C-Reactive protein ns QOL: SF-36 ↑ more TC than WE with only vitality* Patient Reported Outcomes: Pain ↓ TC and ↑ WE ns Psychological: Center for Epidemiological Studies Depression Scale ↑ more TC than WE* Immune/Inflammation: ESR and C-Reactive protein ns (note TC higher level at baseline) |
| Wennenberg Gunnarsson & Ahlstrom 2004 Sweden | 36 History of Muscular Dystrophy 33–80 years 19/17 | 12wk (Weekend immersion, then 45–50 min × 1 day for 4 weeks, then every other week for 8 weeks) | Qigong (n=16) | Wait-List control (n=15) | Cardiopulmonary: Forced vital capacity and expiratory volume ↓ QG and WL ns Falls and Balance: BBS unchanged for QG and ↓ WL ns for intervention period; subgroup A QOL: SF-36 general health unchanged for QG and ↓ WL* and other dimensions ns; Ways of Coping: positive reappraisal coping ↓ for QG and unchanged for WL*, Confrontative coping ↑ QG and ↓ WL ns, and other dimensions ns Psychological: Montgomery Asberg Depression Rating Scale QG and WL ns |
| Winsmann 2006 USA | 47 Veterans 49.55 years 47/0 | 4 weeks (75 min × 2 days) | Tai Chi Chuan Yang Style (n=23) | UC included group therapy (n=24) | Patient Reported Outcomes: Dissociative Experiences and Symptom Checklist 90 ↓ TC more than UC ns |
| Wolf O’Grady Easley Guo Kressig & Kutner 2006 USA | 311 Transitionally frail with average of 5.6 comorbidities 80.9 years 20/291 | 48 weeks (60–90 min × 2 days) | Tai chi 6 of 24 simplified forms (n=158) | Wellness Education (n=153) | Cardiopulmonary: BMI ↓ TC and ↑ WE*; SBP and HR ↓ TC and ↑ WE*; DBP ↓ TC more than WE* Physical Function: Gait Speed and FR ↑ TC and WE ns; Chair stands ↓ 12.3% TC and ↑ 13.7% WE*; 360° turn and pick up object similar change TC and WE ns; and OLS nc |
| Wolf Sattin Kutner O’Grady Greenspan & Gregor 2003b USA | 311 Transitionally frail with average of 5.6 comorbidities 80.9 years 20/291 | 48 weeks (60–90 min × 2 days) | Tai chi 6 of 24 simplified forms (n=145) | Wellness Education (n=141) | Falls and Balance: TC lower risk for falls from month 4 to 12; RR falls TC and WE 0.75 (CI=0.52–1.08) ns |
| Wolf Barnhart Ellison Coogler & Gorak 1997a USA | 72 Sedentary 77.7 years 12/60 | 15 weeks (60 min × 2days TC group) | Tai Chi 108 forms simplified to 10 forms (n=19) | Balance Training (n=16) and Education Control (n=19) | Falls and Balance: Balance: Dispersion for OLS (eyes open), toes up (eyes open and closed), Center of Balance X with toes up (eyes open) and Center of Balance Y (OLS eyes open and closed) ↓ more BT than ED and TC*; Dispersion for toes up (eyes open), Center of Balance X OLS (eyes open and closed) and Toes up (eyes closed), and Center of Balance Y for toes up (eyes open and closed) TC, BT, and ED ns; Psychological: Fear of falling ↓ more for TC than BT and ED* |
| Wolf Barnhart Kutner McNeelly Coogler & Xu 2003a USA | 200 Community dwellling 76.2 years 58/242 | 15 weeks (45 minutes weekly in class plus 15 min 2 × daily) | Tai Chi (n=72) | Balance Training (n=64) and Education Control (n=64) | Cardiopulmonary: BP↓ more for TC than BT and ED*; 12-minute walk ↑ 0.01 mile for BT and ED and ↓ 0.02 for TC*; Body composition changes for TC, BT and ED ns Physical Function: Left hand grip strength ↓ more in BT and ED than TC*; Strength of hip, knee and ankle via Nicholas MMT 0116 muscle tester, lower extremity ROM changes TC, BT and ED ns Falls and Balance: Intrusiveness↓ more for TC than ED ns; RR for falls in TC 0.632 (CI 0.45– 0.89)* using FICSIT fall definition and for BT and other fall definitions ns Psychological: Fear of falling ↓ more for TC than BT and ED* |
| Woo Hong Lau & Lynn 2007 China | 180 Community dwelling 68.91 years 90/90 | 12 months (?min × 3 days) | Tai Chi Yang style 24 forms (n=30) | Resistance Training (n=29) and UC (n=29) | Falls and Balance: Muscle strength (grip strength and quadriceps) ns; Balance (SMART Balance Master, stance time, gait velocity, and bend reach); and falls for TC, RT and UC ns Bone Density: Women: BMD loss at hip less for TC and RT than UC*; BMD loss at spine less for TC and RT than UC ns; Men: no difference in % change in BMD |
| Yang Verkuilen Rosengren Grubisich Reed & Hsiao- Wecksler 2007a USA | 49 Healthy adults 80.4 years 10/39 | 6 months (60 min × 3 days) | Qigong (sitting and standing) and Taiji Chen style Essential 48 form (n=33) | Wait-List (n=16) | Falls and Balance: Sensory Organization Test vestibular ratios and Base of Support measures ↑ more for TC than WL*↑; Sensory Organization Test visual ratios and feet opening angle for TC and WL nc |
| Yang Verkuilen Rosengren Mariani Reed Grubisich & Woods 2007b USA | 50 History of received flu immunization and sedentary 77.2 years 13/37 | 20 weeks (60 min × 3 days) | Qigong (sitting and standing) and Taiji Chen style Essential 48 form (n=27) | Wait-List (n=23) | Immune/Inflammation: Hemagglutination Inhibition assay ↑ 109% for QG compared to ~10% for WL* |
| Yeh Wood Lorell Stevenson Eisenberg Wayne et al. 2004 USA | 30 History chronic stable heart failure 64 years 19/11 | 12 weeks (60 min × 2 days) | Tai chi Yang-style 5 core movements (n=15) | UC including pharmacologi c therapy, dietary and exercise counseling (n=15) | Cardiopulmonary: Peak O2 uptake↑ TC and ↓ UC ns; 6-minute walk ↑ TC and ↓ UC*; Serum B-type natriuretic peptide ↓ TC and ↑ UC*; Plasma norepinephrine ↑ TC more than UC ns; and no differences in incidence of arrhythmia between groups QOL: Minnesota Living with Heart Failure ↓ TC and ↑UC* |
| Young Appel Jee & Miller 1999 USA | 62 History of BP between 130 and 159 and not taking medications for hypertension or insulin (45.2% black) 66.7 years 13/49 | 12 weeks (60 min × 2 days class with goal of 30–45 min/4–5 days/week) | TC Yang Style 13 movements (n=31) | Aerobic Exercise class at 40 to 60% HR reserve (n=31) | Cardiopulmonary: BP↓ TC and AE*; BMI ↑ slightly TC and AE ns; and time in moderate activity, weekly energy expenditure, and leisurely walking ↑ for AE more than TC ns |
| Zhang Ishikawa- Takata Yamazaki Morita & Ohta 2006 China | 47 History of poor balance 70.4 years 25/22 | 8 weeks (60 min × 7 days) | TC simplified 24 forms Zhou (n=24) | UC (n=23) | Falls and Balance: OLS, trunk and flexion more TC than UC*; 10 minute walk ↓ TC and UC ns Psychological Symptoms: Falls Efficacy Scale ↑ more TC than UC* |
Three authors independently reviewed the articles selected for inclusion and considered categorizing studies by type of patient or disease outcome. Many of the studies drew participants from a general, healthy population (n=16), so a category schema based on patient type or disease would not have included all of the studies. The authors revisited the long list of health benefits and outcomes assessed across the studies and generated broad categories that combined related health outcomes into larger groups. These initial categories were defined based on identifying the most frequently measured primary outcomes, and then refining the groups to develop an investigation framework that accommodated all of the research outcomes into at least one of the categories. These categories of outcomes related to Qigong and Tai Chi practice were discussed and continually reworked until we had clear, non-overlapping boundaries for each category based on similar symptoms or health indicators related to a common function or common target organ system. These groupings are not intended to be conclusive taxonomies but rather are used for this review as convenient and meaningful tools for evaluating similar groups of outcomes. In this way, examining health outcomes across a variety of study designs and populations (including, healthy, diseased or at-risk patients) was possible.
A total of 6410 participants were included across these reported studies. While some of the studies compared Qigong or Tai Chi to other forms of exercise (n=13), many compared to a non-exercise treatment control group such as education or usual care (n=43) and some used both exercise and non-exercise comparison groups to evaluate effects of Qigong or Tai Chi interventions (n=11). Most studies included healthy adults (n=16 studies), but several studies included participants based on specific risk factors or diagnosis of disease including: arthritis (n=5); heart disease (n=6); hypertension (n=5); osteoporosis risk [e.g., peri-menopausal (n=3)]; fall risk determined by age and sedentary lifestyle or poor physical function and balance (n=18); breast cancer (n=1); depression (n=2); fibromyalgia (n=2); immune dysfunction including HIV/AIDS and varicella history or vaccine response (n=3); muscular dystrophy (n=1); Parkinson’s disease (n=1); neck pain (n=1); sleep complaints (n=1); chronic disease (n=1); and traumatic brain injury (n=1). Some of the studies (n=9) monitored adverse effects during the interventions and none reported an adverse event.
The studies originated from 13 countries (USA, n=34; China (including Hong Kong), n=9; Korea, n=4; Australia and New Zealand, n=5; Sweden, n=4; Great Britain, n=3; Italy and Taiwan, each n=2; Netherlands, Israel, Poland, and Spain, each n=1).
From all of the studies, 163 different physiological and psychological health outcomes were identified. Many of the studies assessed outcomes across more than one category (e.g., physical function as well as a variety of psychosocial and fitness outcomes), so some studies are discussed in more than one section in the review of categories that follows.
The 9 outcome category groupings that emerged are: bone density (n=4), cardiopulmonary effects (n=19), physical function (n=16), falls, balance and related risk factors (n=23), quality of life (n=17), self-efficacy (n=8), patient reported outcomes (n=13), psychological symptoms (n=27), and immune- and inflammation-related responses (n=6). Within each category of outcomes, there were both Qigong and Tai Chi interventions represented.
Resistance training and other weight bearing exercises are known to increase bone formation38 and have been recommended for post-menopausal women for that purpose. Interestingly, most Qigong and Tai Chi practices involve no resistance and only minimal weight bearing (such as gentle knee bends), yet the four RCTs (total sample size=427) included in this review reported positive effects on bone health. One study examined the effect of Qigong and three examined Tai Chi.– Bone loss was retarded and numbers of fractures were less among post-menopausal women practicing Tai Chi compared to usual care. In another study, bone loss was less pronounced for post-menopausal females practicing Tai Chi or resistance training compared to no-exercise controls, but this effect was not found in the older men participating in the study. Shen and colleagues compared Tai Chi to resistance training and reported significant changes in biomarkers of bone health in both groups. Bone mineral density increased for women following Qigong exercises as compared to no-exercise controls. In summary, current research suggests a favorable effect on bone health for those practicing Tai Chi or Qigong.
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Nineteen studies [Qigong (n=7) and Tai Chi (n=12)] reported favorable cardiovascular and/or pulmonary outcomes. Participants in this grouping of studies were generally older adults (mean age=61.02) and inclusion criteria varied from history of disease to reported sedentary behavior. Measures of cardiopulmonary function were representative of cardiopulmonary fitness and cardiovascular disease risk and included blood pressure, heart rate, ejection fraction rates, blood lipids, 6-minute walk distance, ventilatory function, and body mass index (BMI).
One of the most consistent findings was the significant reduction in blood pressure reported in multiple studies, especially when Qigong, or Tai Chi, were compared to inactive control groups such as usual care, educational classes, or wait-list controls. Even when compared to active control groups such as aerobic exercise or balance training, Tai Chi showed a significant reduction in blood pressure in two studies., Other studies, however, that utilized active control interventions (low to moderate levels of physical activity) expected to reduce blood pressure showed positive changes for both groups, but without significant differences between Qigong or Tai Chi, and the comparison group; thus, providing preliminary evidence that these meditative movement practices achieve similar results to conventional exercise.
Other indicators of cardiac health have been evaluated. Reduced heart rate is reported, , as well as increases in heart rate variability. These reported changes in blood pressure, heart rate, and heart rate variability suggest that one or several of the key components of Tai Chi and Qigong, that is body, breath, and mind, may affect sympathetic and parasympathetic balance and activity.
Biomarkers of heart-health have been shown to improve in response to Qigong or Tai Chi practice. Yeh and colleagues reported significantly improved Serum B-type natriuretic peptide levels in response to Tai Chi compared to usual care controls, indicating improved left ventricular function. Lipid profiles improved in two studies, comparing Qigong and Tai Chi to inactive controls while another study of Qigong reported no change in cholesterol levels compared to inactive (wait-list) controls. Pippa and colleagues also reported no change in ejection fraction rates following a 16-week study of Qigong among participants with a history of chronic atrial fibrillation. Urine catecholamine levels were significantly decreased in participants practicing Tai Chi compared to wait-list controls but a similar trend did not reach significance in another study with only 15 participants per treatment condition.
A variety of cardiopulmonary fitness indicators have been examined for both Qigong and Tai Chi. Participants with a history of heart failure reported significant improvements in the incremental shuttle walk following a combined Tai Chi/Qigong intervention implemented in two studies incorporating inactive control groups., Women treated for breast cancer achieved significantly increased distances in the 6-minute walk test in response to Tai Chi compared to a psychosocial support control intervention and VO2 max increased significantly more following a Tai Chi intervention compared to resistance training and usual care control groups. In contrast to these consistent findings for cardiopulmonary benefits, one study found no significant improvement in response to Qigong, while aerobic training did achieve significant changes. In this small (n=11 in each arm of study) cross-over study of patients with Parkinson’s disease, participants practiced Qigong or aerobic training in random order for 7 weeks (with 8 weeks rest in between intervention periods), results on the 6-minute walk test, VO2peak and VO2/Kg ratio were significantly improved for those who completed the aerobic exercise protocol, but no significant effects were found for those practicing Qigong.
Most of the non-significant findings have been found in studies with participants with some form of chronic illness or recovery from cancer at study entry. For example, respiratory function improved clinically, but not significantly, for patients with chronic heart failure practicing Tai Chi compared to usual care, and as described above, was relatively unchanged for the Qigong group with a history of Parkinson’s disease compared to an aerobic training control group. A group of patients with muscular dystrophy showed a trend for improvement that did not reach significance compared to a wait-list control. Further, no change in cardiovascular function was reported for sedentary participants with a history of osteoarthritis. Aerobic capacity was shown to improve with Tai Chi, though not significantly more so than with inactive controls in a small study of breast cancer survivors., , It is important to point out that of these five studies that failed to demonstrate significant improvements following Qigong or Tai Chi, four had 31 or fewer participants. It is difficult to discern if non-significant findings in cardiopulmonary fitness are due to some pattern of ineffectiveness with chronic and debilitating illness or if they are a result of the limited statistical power.
One of the key risk factors for cardiac disease is obesity. Qigong has demonstrated a greater reduction in BMI as compared to an exercise control group in two studies,, but this difference was not significant. Another study demonstrated a marked but non-significant reduction in waist circumference with Tai Chi compared to usual care for older adults. Conversely, one study using Qigong and two with Tai Chi (respectively), , reported no change in BMI compared to usual care and another implementing a Qigong intervention failed to maintain weight loss, suggesting the data are inconclusive at this point as to whether or not these practices may consistently affect weight.
A few studies of both Qigong and Tai Chi have examined level of intensity, indicating that some forms of these practices fall within the moderate intensity level,, but for the most part, level of exercise intensity is not reported. Cardiopulmonary benefits of Qigong and Tai Chi may partially be explained as a response to aerobic exercise, but with the wide range of speeds with which these exercises are executed, it would be important to assess this factor for a better understanding of the elements that contribute to outcomes. Regardless of the mechanisms, the preponderance of studies on cardiopulmonary outcomes show that Qigong and Tai Chi are effective compared to inactive controls, or at least approximately equal to the expected benefits of conventional exercise.
Decreased physical activity is related to declining physical function in all populations and that decline is compounded by the natural process of aging., 63 Changes in physical function were assessed in 16 studies (Qigong, n=2; Tai Chi, n=14). Most of the studies were conducted with older adults (i.e., studies in which mean age = 55 years or older, n=13) and several recruited specifically for participants with chronic pain (e.g., osteoarthritis, neck pain, or fibromyalgia, n = 5). A number of behavioral measures of physical function performance were included in this category of outcomes which also includes self-reported responses on scales representing physical function. Although fitness outcomes, such as the 6-minute walk test, might also be seen as assessing overall physical function, we did not include tests already discussed in the cardiopulmonary fitness category, but rather focused on functional tests that are usually used to assess capacity for daily living. Studies that assessed changes in overall physical activity levels are also included as an outcome pertaining to physical function.
Physical function measured with a wide variety of performance indicators, including chair rise, 50-ft walk, gait speed, muscle contraction strength, hand grip, flexibility, and function as measured on the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC, an osteoarthritis-specific assessment for function, stiffness, and pain), were variously found to be significantly improved in 5 studies comparing Tai Chi to minimal activity (usual or stretching activity, psychosocial support, or education) comparison groups, – and one study of Tai Chi compared to an exercise therapy control intervention. One of these studies combined functional walking with Tai Chi to achieve significant improvements with pre-frail elders compared to usual care.
In contrast, in 7 studies including participants with osteoarthritis or multiple co-morbidities, some of the physical function measures were not significantly different for Tai Chi or Qigong in comparison to inactive controls. This was the case for gait speed, timed up and go, 50-ft. walk and stair climb and 50-ft. walk and chair stand., In one study of 30 patients with osteoarthritis practicing Tai Chi twice per week and another with 36 participants with fibromyalgia that utilized hand grip and chair stand to test a 20 minutes per week Qigong intervention, neither achieved significant improvements compared to usual care. In one exception to this trend, one measure of functional performance, time to complete chair rise, was significantly improved in transitionally frail elders in the Tai Chi group compared to a wellness education control group.
Studies using self-report measures consistently show positive results for Tai Chi. Self-reported improvement in physical function for sedentary older adults was demonstrated for Tai Chi compared to wait-list controls,, and a stretching exercise control.33
Results in this category of outcomes are inconsistent, with a preponderance of studies recruiting sedentary, or chronically ill or frail elder participants. Even so, a handful of these studies successfully demonstrated potential for Qigong and Tai Chi to build performance, even with health compromised individuals. Further studies are needed to examine the factors that are important to more critically evaluate these interventions (such as power considerations or dose and frequency of the interventions), or learn if there are particular states of ill health that are less likely to respond to this form of exercise.
Another large grouping of studies focused primarily on falls prevention, balance, and physical function tests related to falls and balance (such as one-leg stance). Although there may be some crossover of implied benefits to the more general physical function measures reported above, this separate category was established to report on the studies of interventions primarily targeting falls and related measures. Fear of falling is reported with the psychological outcomes and fall self-efficacy is reported in the self-efficacy outcomes rather than in this category of falls and balance.
Outcomes related to falls such as balance, fall rates, and improved strength and flexibility were reported in 24 articles (Qigong, n=2, Tai Chi, n=20, and 2 studies that included both practices). Scores directly assessing balance (such as one-leg stance) or other closely related measures were consistently, significantly improved in 16 Tai Chi studies that only included participants who were sedentary or deemed at risk for falls at baseline.33, , , , , , –
Qigong has been less studied in relationship to balance-related outcomes; however, results suggest that there was a trend to maintain balance using Qigong in a population of patients with muscular dystrophy. In two studies that used both Qigong and Tai Chi, several measures of balance were significantly improved with sedentary women and with elderly healthy adults (mean age 80.4 years) compared to wait list controls.
Another set of studies shows the effect of Tai Chi on balance to be similar to conventional exercise or physical therapy control interventions aimed at improving physical function related to balance;, , or vestibular rehabilitation., On the other hand, in a study of stroke survivors comparing Tai Chi to balance exercises, significant improvements in balance were achieved in the exercise control group, but not for Tai Chi. While knee extension was significantly improved, balance was not improved significantly in a Tai Chi intervention with sedentary women compared to a flexibility training control group.
Mechanisms of gait performance which are important to understanding how Tai Chi affects balance were also studied. Reported improvements were found in 4 studies., , , Strength and flexibility are also important to fall prevention. Four studies found significant improvements in these factors when Tai Chi was compared to an active control (brisk walking)33, , , , or inactive controls., ,
Eight studies directly monitored fall rates. Studies that incorporate educational or less active control interventions (e.g., stretching), variously demonstrated significant falls reduction for Tai Chi, , , or non-significant reductions compared to control., In a study comparing Tai Chi to an active physical therapy intervention designed to improve balance, results were similar (non-significant differences) between the two groups. The results are difficult to interpret as some participants may fall more because their level of activity has increased and some interventions are not monitored long enough to detect changes in fall rates.
This category of outcomes has a large body of research supporting the efficacy of Tai Chi on improving factors related to falls, and growing evidence that falls may be reduced. Longer term studies to examine fall rates, and parallel studies that utilize Qigong as the intervention may further clarify the potential of these forms of exercise to affect falls and balance.
Quality of life (QOL) outcomes were reported in 17 articles (Qigong, n=4 and Tai Chi, n=13). QOL is a broad ranging concept derived in a complex process from measures of a person’s perceived physical health, psychological state, personal beliefs, social relationships and relationship to relevant features of one’s environment.91 In 13 studies of a wide range of participants (including healthy adults, patients with cancer, post-stroke, arthritis, etc.) at least one of the components of QOL was reported to be significantly improved by Tai Chi compared to inactive, , , , – or active controls, and by Qigong compared to inactive, or active control groups. Qigong showed improvements in QOL compared to an exercise intervention, but not significantly so.
Conversely, two studies reported no change in QOL, both with severely health-compromised individuals. One was of short duration (6 weeks) conducted with patients with traumatic brain injury. Some improvement in coping was shown with muscular dystrophy patients in response to a Qigong intervention, however, this finding was not significant, and direct QOL measures remained unchanged. One study reported no change in QOL when Tai Chi was compared to balance training and an education control among healthy older adults.
With a few exceptions, the preponderance of studies indicate that Qigong and Tai Chi hold great potential for improving QOL in both healthy and chronically ill patients.
Self-efficacy is the confidence a person feels in performing one or several behaviors and the perceived ability to overcome the barriers associated with the performance of those behaviors.100 Although this is not a health outcome itself, it is often associated directly with health behaviors and benefits (e.g., falls self-efficacy associated with reduced falls), or with psychological health. Significant improvements in this outcome were reported in 8 studies (Qigong, n=2 and Tai Chi, n=6). Self-efficacy was generally assessed in the RCTs as a secondary outcome and reflected the “problem” area under investigation, such as falls self-efficacy (i.e., feeling confident that one will not fall) or efficacy to manage a disease (arthritis, fibromyalgia) or symptom (pain). Self-efficacy for falls was significantly increased as a result of participation in Tai Chi in 3 studies with adults at risk for falls compared to wait-list or usual care, sedentary control groups., , In studies with clinical populations, persons with arthritis experienced improvements in arthritis self-efficacy and fibromyalgia patients experienced improvements in the ability to manage pain after participating in Tai chi as compared to inactive control groups that provided social interaction (telephone calls and relaxation therapy respectively). Lastly, the perceived ability to handle stress or novel experiences, and exercise self-efficacy, were enhanced relative to inactive control groups as a function of participation in Qigong and Tai Chi.
Patient reported outcomes (PROs) include reports of symptoms related to disease as perceived by the patient. The definition of PROs as “a measurement of any aspect of a patient’s health status that comes directly from the patient, without the interpretation of the patient’s responses by a physician or anyone else,”104 has developed over the past decade as an important indicator of treatment outcomes that matter to the patient, including an array of symptoms such as pain, fatigue, and nausea. Although PRO lists often include factors such as anxiety and depression, these are not included here, but rather in a separate section to address a range of psychological effects.
Thirteen studies are included in this category (Qigong, n=3 and Tai Chi, n=10). Arthritic pain, , , decreased significantly in response to Tai Chi compared to inactive (health education or usual care) controls. Self-reported neck pain and disability improved to a similar degree for Qigong and an exercise comparison intervention, but the difference between groups was not significant. Fibromyalgia symptoms improved significantly in one study comparing Tai Chi to a relaxation intervention, while another study reported slight improvements in symptoms for both Qigong and a usual care control group with no significant difference between the groups. Perceived symptoms of heart failure, disability, and sickness impact scores decreased in response to Tai Chi interventions as compared to inactive controls (either usual care or educational interventions) and sleep quality improved for Tai Chi even as compared to an exercise intervention. With Tai Chi, dissociative experiences and symptoms improved clinically, but were not statistically different from gains achieved by a support group among male veterans.109 Parkinson’s disease symptoms and disability were not significantly changed following a 7-week session of Qigong compared to aerobic training sessions.
With the wide range of symptoms, and irregular outcomes of these PROs studies, it is difficult to draw meaningful conclusions about this category. Pain consistently responded to Tai Chi in four studies, while other symptoms were not uniformly assessed.
Twenty-seven articles (Qigong, n=7 and Tai Chi, n=19 and one study using both Qigong and Tai Chi) reported on psychological factors such as anxiety, depression, stress, mood, fear of falling, and self-esteem. Most of these studies examined psychological factors as secondary goals of the study, and consequently, they often did not intentionally recruit participants with appreciable psychological distress. Nevertheless, a number of substantial findings dominate this category.
Anxiety decreased significantly for participants practicing Qigong compared to an active exercise group., , Depression was shown to improve significantly in studies comparing Qigong to an inactive control, newspaper reading and for Tai Chi compared to usual care, psychosocial support or stretching/education controls., , General measures of mood (e.g, Profile of Mood States) were improved significantly for participants practicing Tai Chi compared to usual care controls., , ,
Depression improved, but not significantly, for both Qigong and exercise comparison groups, and for Tai Chi compared to an educational intervention. One study reported improved depression, anxiety, and stress among patients with osteoarthritis for both Tai Chi and hydrotherapy groups compared to a wait-list control, but only significantly so for hydrotherapy.
Non-significant changes in anxiety were reported in a study of Tai Chi compared to a relaxation intervention and two other studies did not detect significant differences in depression in response to Tai Chi, or Qigong compared to usual care or inactive controls. Fear of falling decreased significantly in most studies, , , , except for one that showed no change. Reports of self-esteem significantly improved in tests of Tai Chi compared to usual care, 115 and psychosocial support, but the increase in self-esteem compared to exercise and education controls was not significant.
Jin specifically created a stressful situation and measured the response in mood, self-reported stress levels, and BP, across 4 interventions, including Tai Chi, meditation, brisk walking and neutral reading. Significant improvements were shown in adrenaline, heart rate, and noradrenaline in Tai Chi compared to a neutral reading intervention, while all groups showed improvements in cortisol. In another study examining blood markers related to stress response, norepinephrine, epinephrine and cortisol blood levels were significantly decreased in response to Qigong compared to a wait-list control group.
This category of symptoms, particularly anxiety and depression, shows fairly consistent responses to both Tai Chi and Qigong, especially when the control intervention does not include active interventions such as exercise. In particular, with a few studies indicating that there may be changes in biomarkers associated with anxiety and/or depression in response to the interventions, this category shows promise for examining potential mechanisms of action for the change in psychological state.
Immune-related responses have also been reported in response to Qigong (n=3) and Tai Chi (n=3) studies. Manzaneque et al. reported improvements in a number of immune-related blood markers, including total number of leukocytes, number of eosinphils, and number and percentage of monocytes, as well as the complement C3 levels following a 1-month Qigong intervention compared to usual care. Antibody levels in response to flu vaccinations were significantly increased among a Qigong group compared to usual care. Varicella zoster virus titers and T-cells increased in response to vaccine among Tai Chi practitioners. An earlier study conducted by Irwin and colleagues reported an increase in varicella zoster virus specific cell-mediated immunity among those practicing Tai Chi compared to wait-list controls.
Immune function and inflammation are closely related, and are often assessed using a variety of blood markers, particularly certain cytokines and C-reactive protein. Interleukin-6, an important marker of inflammation, was found to be significantly modulated in response to practicing Qigong, compared to a no-exercise control group. On the other hand, C-reactive protein and erythrocyte sedimentation rates remained unchanged among a group of rheumatoid arthritic patients who participated in a Tai Chi class compared to stretching and wellness education.
A number of studies not utilizing an RCT design have examined blood markers prior to and after Tai Chi or Qigong interventions, providing some indication of factors that might be important to explore in future RCTs (and not reported in the table). For example, improvements in thyroid-stimulating hormone, follicle-stimulating hormone, triiodothyronine,118 and lymphocyte production have been noted in response to Tai Chi compared to matched controls. Pre-post Tai Chi intervention designs have also shown an improvement in immunoglobulin G (IgG)120 and natural killer (NK) cells121 and similar non-RCTs have suggested that Qigong improves immune function and reduces inflammation profiles as indicated by cytokine and T-lymphocyte subset proportions.–
As with the category of psychological outcomes, these immune and inflammation related parameters fairly consistently respond to Tai Chi and Qigong, while also providing potential for examining mechanisms of action.
In answering Research Question 1, we have identified 9 categories of health benefits related to Tai Chi and Qigong interventions, with varying levels of support. Six domains of health-related benefits have dominated the research with sixteen or more RCTs published for each of these outcomes: psychological effects (27), falls/balance (23), cardiopulmonary fitness (19), QOL (17), PROs (18), and physical function (16). These areas represent most of the RCTs reviewed, with many of the studies including multiple measured outcomes spanning across several categories (n=42). Substantially fewer RCTs have been completed in the other three categories, including bone density (4), self-efficacy (8), and studies examining markers of immune function or inflammation (6).
The preponderance of studies showed significant, positive results on the tested health outcomes, especially when comparisons were made with minimally active or inactive controls (n=52). For some of the outcomes addressed in this review, there were studies that did not demonstrate significant improvements for the Tai Chi or Qigong intervention as compared to the control condition. For the most part, however, these non-significant findings occurred in studies in which the control design was actually a treatment type of control expected to produce similar benefits, such as an educational control group intervention producing similar outcomes as Tai Chi for self-esteem, aerobic exercise showing similar results to Qigong in reducing depression,, an acupressure group successfully maintaining weight loss compared to no intervention effect for Qigong, or resistance training producing similar (nonsignificant) effects as Tai Chi for muscle strength, balance, and falls., It is important to note that although the Tai Chi and Qigong interventions did not produce larger benefits than these active treatment controls, in most cases substantial improvements in the outcome were observed for both treatment groups.
Other studies in which the improvements did not significantly differ between the treatment group and the control group suffered from: (a) study designs of shorter duration (4 to 8 weeks, rather than the usual 12 or more weeks), although there were some exceptional studies with significant results after only 8 weeks;, , (b) selection of very health-compromised participants or individuals with conditions that do not generally respond to other conventional treatments or medicines such as muscular dystrophy, multiple morbidities, fibromyalgia, arthritis; or (c) the outcome measured was not noted as particularly problematic nor set as an eligibility criteria for poor starting levels at baseline (n=5).,
Install dell audio driver. On the other hand, in the areas of research that address outcomes typically associated with physical exercise, such as cardiopulmonary health or physical function, results are fairly consistent in showing that positive, significantly larger effects are observed for both Tai Chi and Qigong when compared to no-exercise control groups and similar health outcomes are found when compared to exercise controls. Even with the very wide range of study design types, strength of control interventions, and the entry level of the health status of study participants, there remain a number of remarkable and persistent findings of health benefits in response to both Qigong and Tai Chi.
In response to Research Question 2, we have noted in earlier sections the ways in which Qigong and Tai Chi are considered equivalent, and now address how studies identifying similar outcomes in response to these practices may provide additional evidence for equivalence. On the surface, research that examines the effects of Qigong on health outcomes appears to be of lesser magnitude than the research on what is typically called Tai Chi. For each category of outcomes described above, we noted how many RCTs had been conducted for each, Tai Chi and Qigong, and for the most part, there were many fewer reports on Qigong than for what is named Tai Chi for any given outcome examined. Nevertheless, across the outcomes examined in RCTs, the findings are often similar, with no particular trends indicating that one has different effects than the other.
As noted earlier, however, it is not unusual for the intervention used in a study or trial to be named Tai Chi, but to actually apply a set of activities which is more a form of Qigong, that is, easy-to-learn movements that are simple and repeatable rather than the long complex sequences of traditional Tai Chi movements that can take a long time to learn. For example, a large number of studies examining Tai Chi effects on balance use a modified, repetitive form of Tai Chi which is more like Qigong. Thus, while it appears that fewer studies have been conducted to test what is called Qigong, it is also clear that when a practice called Tai Chi is modified to focus, especially on balance enhancement, for example, it actually may be Tai Chi in name only.
Given the apparent similarity of practice forms utilized in research, the discussion of equivalence of Tai Chi and Qigong extends beyond the earlier observation that they are similar in practice and philosophy. Since research designs often incorporate blended aspects of both Qigong and Tai Chi, it is unreasonable to claim that the evidence is lacking for one or the other and it becomes inappropriate not to claim their equivalence. We suggest that the combined current research provides a wider base of growing evidence indicating that these two forms produce a wide range of health-related benefits.
The problem with claiming equivalence, then, does not lie within the smaller number of studies using a form called Qigong, but rather in the lack of detail reported across the studies regarding whether or not the interventions contain the key elements philosophically and operationally thought to define meditative movement practices such as Tai Chi and Qigong. In previous publications, and in this review, we note that the roots of both of these TCM-based wellness practices require that the key elements of meditative movement be implemented: focus on regulating the body (movement/posture); focus on regulating the breath; and focus on regulating the mind (consciousness) to achieve a meditative state. Given the equivalence noted in foundational principles and practice, the differences among interventions and resultant effects on outcomes would perhaps more purposefully be assessed for intervention fidelity (i.e., adherence to the criteria of meditative movement).
Beyond the meditative movement factors that tie the practices and expected outcomes together, other, more conventional factors would be important to assess, each potentially contributing to variations in outcomes achieved. For example, dosing (i.e., frequency, duration and level of intensity, including estimate of aerobic level or metabolic equivalents) may be important in whether or not benefits accrue. Or, a focus on particular muscle groups may be critical to understanding changes relative to certain goals (e.g., how many of the exercises chosen for a study protocol develop quadricep strength likely to produce results for specific physical function tests?). Beyond the important similarities of movement and a focus on breath and mind to achieve meditative states, there are other aspects that vary greatly within the wide variety of both Tai Chi and Qigong exercises, including speed of execution, muscle groups used and range of motion, all of which may provide differences in the physiologically-oriented outcomes (similar to the differences that could be noted in the wide variety of exercises considered under the aerobic “umbrella”).
The question of the equivalence Tai Chi and Qigong, then, may be helpful if the focus is on similarity in philosophy and practice. With consistent reporting on adherence to the above mentioned aspects of practice, not only could a level of standardization be implemented, but also measures that control for variation of interventions could be used to better understand differences and similarities in effects.
For purposes of this review, a study was selected if it was designed as an RCT and compared the effects of either Tai Chi or Qigong to those of a control condition on a physical or psychological health outcome. However, there was no further grading of the quality of the research design. As a result of this relatively broad inclusion criterion, the studies represent a wide variety in methods of controlling for balanced randomization and intent to treat analyses, in the specific methods of implementing Tai Chi and Qigong, in the outcomes assessed, in the measurement tools used to ascertain the outcomes, and in the populations being studied.
One difficulty in examining such a broad scope of studies is that the large number of studies required that we logically, but artificially, construct categories within which to discuss each group of outcomes. However, by choosing to categorize by health outcomes, rather than participant, patient or disease types, we have provided one particular view of the data, and may have obscured other aspects. For example, in a recently published review, the authors analyzed studies that were conducted with community-dwelling adults over the age of 55. Results showed that interventions utilizing Tai Chi and Qigong may help older adults improve physical function and reduce blood pressure, fall risk, and depression and anxiety. Another view of these data may emerge if only studies of chronically ill participants are evaluated. Thus, there may be other ways to examine the RCTs reported in the current review such that specific diseases or selected study populations may reveal more consistent findings (positive or negative) for certain outcomes that are clearly tied to entry level values.
A compelling body of research emerges when Tai Chi studies and the growing body of Qigong studies are combined. The evidence suggests that a wide range of health benefits accrue in response to these meditative movement forms, some consistently so, and some with limitations in the findings thus far. This review has identified numerous outcomes with varying levels of evidence for the efficacy for Qigong and Tai Chi, including bone health, cardiopulmonary fitness and related biomarkers, physical function, falls prevention and balance, general quality of life and patient reported outcomes, immunity, and psychological factors such as anxiety, depression and self-efficacy. A substantial number RCTs have demonstrated consistent, positive results especially when the studies are designed with limited activity for controls. When both Tai Chi and Qigong are investigated together, as two approaches to a single category of practice, meditative movement, the magnitude of the body of research is quite impressive.
The current state of research splinters these TCM-based wellness practices by identifying them with different names, and treating them as separate and different methodologies. Our intent has been to recognize the common critical elements of Qigong and Tai Chi, based on the similarities in philosophy and practice and the range of findings for similar health outcomes, and to treat the two as equivalent forms. Studies in the future should acknowledge these elements, and even test for intervention fidelity, to assure that the practices do, in fact, reflect the guiding principles of Tai Chi and Qigong. Beyond this we assert that it is critical to begin delineating the practice characteristics that actually do differ both between and within these practices, so that a more specific body of knowledge can begin to accumulate about the types of practices, the component features of the practices and their effects on health-related outcomes.
Some studies of these forms of meditative movement indicate that study participants with severe, chronic, progressive illnesses may be slower to respond or not respond at all to the practices. Interestingly, however, other studies suggest that these practices may improve or slow the progression of such illnesses. This may be especially likely when the practices are implemented early as an aspect of wellness, prevention or disease management in a proactive, risk reduction context. These findings suggest that continued research on these and other forms of meditative movement is warranted for a broad number of conditions and across populations.
The wide variations in populations and outcomes studied, descriptions of interventions (or the lack of such description), reports of dose, and the extreme variety in the sorts of tools used to assess outcomes, point to the need to develop more standardized protocols and trends in measurement for the field of meditative movement research. Application in health promotion
The preponderance of findings are positive for a wide range of health benefits in response to Tai Chi, and a growing evidence base for similar benefits for Qigong. As described, the foundational similarities and the often adapted Tai Chi protocols which more closely resemble forms of Qigong, allow us to suggest that outcomes can be counted across both types of studies, further supporting claims of equivalence.
In a recent review addressing Tai Chi and Qigong research among older adults, it was pointed out that no adverse events were reported across studies. The substantial potential for achieving health benefits, the minimal cost incurred by this form of self-care, and the apparent safety of implementation across populations, points to the importance of wider implementation and dissemination. The health promotion challenge is that both Tai Chi and Qigong are still often considered novel forms of exercise and adopted by a small market segment of our population. On the positive side, however, there is a rapid increase of visibility of what is popularly referenced as Tai Chi which is known as an effective intervention for balance enhancement and falls prevention among the elderly, and there is a growing interest in safe, alternative forms of exercise across all age groups. Tai Chi and Qigong interventions provide an accessible alternative option for individuals who may prefer these activities over more conventional or vigorous forms of exercise. The growing interest in these forms of exercise that include a mindful focus on the breath and meditation provides an opportunity for changing the landscape of personal choice making and shifts the motivations that people have to exercise, while presenting an entirely new set of exercise research opportunities. This suggests that Tai Chi and Qigong (or more generally, meditative movement types of exercise) may provide an attractive and effective exercise alternatives for the large populations of people at risk for preventable disease, sedentary, and lacking the motivation to engage in more conventional exercise.