0
We're unable to sign you in at this time. Please try again in a few minutes.
Retry
We were able to sign you in, but your subscription(s) could not be found. Please try again in a few minutes.
Retry
There may be a problem with your account. Please contact the AMA Service Center to resolve this issue.
Contact the AMA Service Center:
Telephone: 1 (800) 262-2350 or 1 (312) 670-7827  *   Email: subscriptions@jamanetwork.com
Error Message ......
Original Investigation |

Tai Chi Exercise in Patients With Chronic Heart Failure:  A Randomized Clinical Trial FREE

Gloria Y. Yeh, MD, MPH; Ellen P. McCarthy, PhD; Peter M. Wayne, PhD; Lynne W. Stevenson, MD; Malissa J. Wood, MD; Daniel Forman, MD; Roger B. Davis, ScD; Russell S. Phillips, MD
[+] Author Affiliations

Author Affiliations: Division of General Medicine and Primary Care, Department of Medicine, Beth Israel Deaconess Medical Center (Drs Yeh, McCarthy, Wayne, Davis, and Phillips), Division for Research and Education in Complementary and Integrative Medical Therapies, Harvard Medical School (Drs Yeh, Wayne, Davis, and Phillips), Cardiovascular Division, Department of Medicine, Brigham and Women's Hospital (Drs Stevenson and Forman), and Division of Cardiology, Department of Medicine, Massachusetts General Hospital (Dr Wood), Boston, Massachusetts.


Arch Intern Med. 2011;171(8):750-757. doi:10.1001/archinternmed.2011.150.
Text Size: A A A
Published online

Background  Preliminary evidence suggests that meditative exercise may have benefits for patients with chronic systolic heart failure (HF); this has not been rigorously tested in a large clinical sample. We sought to investigate whether tai chi, as an adjunct to standard care, improves functional capacity and quality of life in patients with HF.

Methods  A single-blind, multisite, parallel-group, randomized controlled trial evaluated 100 outpatients with systolic HF (New York Heart Association class I-III, left ventricular ejection fraction ≤40%) who were recruited between May 1, 2005, and September 30, 2008. A group-based 12-week tai chi exercise program (n = 50) or time-matched education (n = 50, control group) was conducted. Outcome measures included exercise capacity (6- minute walk test and peak oxygen uptake) and disease-specific quality of life (Minnesota Living With Heart Failure Questionnaire).

Results  Mean (SD) age of patients was 67 (11) years; baseline values were left ventricular ejection fraction, 29% (8%) and peak oxygen uptake, 13.5 mL/kg/min; the median New York Heart Association class of HF was class II. At completion of the study, there were no significant differences in change in 6-minute walk distance and peak oxygen uptake (median change [first quartile, third quartile], 35 [−2, 51] vs 2 [−7, 54] meters, P = .95; and 1.1 [−1.1, 1.5] vs −0.5 [−1.2, 1.8] mL/kg/min, P = .81) when comparing tai chi and control groups; however, patients in the tai chi group had greater improvements in quality of life (Minnesota Living With Heart Failure Questionnaire, −19 [−23, −3] vs 1 [−16, 3], P = .02). Improvements with tai chi were also seen in exercise self-efficacy (Cardiac Exercise Self-efficacy Instrument, 0.1 [0.1, 0.6] vs −0.3 [−0.5, 0.2], P < .001) and mood (Profile of Mood States total mood disturbance, −6 [−17, 1] vs −1 [−13, 10], P = .01).

Conclusion  Tai chi exercise may improve quality of life, mood, and exercise self-efficacy in patients with HF.

Trial Registration  clinicaltrials.gov Identifier: NCT00110227

Figures in this Article

Historically, patients with chronic systolic heart failure (HF) were considered too frail to exercise and, through the late 1980s, avoidance of physical activity was a standard recommendation.1 Current concepts regarding the role of exercise in the management of HF have shifted, with some studies suggesting that increased activity can have profound benefits on functional capacity, cardiovascular measures, and affective state, ie, in moderating the morbidity associated with deconditioning, exercise intolerance, and depression linked with sedentary behaviors.2Data from trials in patients with HF during the past 15 years examining treadmill, bicycle ergometer, or resistance training have also reported improvements in specific pathophysiologic aspects of HF, including attenuation of neurohormonal activation and ventricular remodeling, improved vasomotor function, and improved skeletal muscle morphologic characteristics and function.26 In 2009, a large multicenter clinical trial—Heart Failure: a Controlled Trial Investigating Outcomes of Exercise Training (HF-ACTION)—reported that exercise training conferred only modest, yet statistically significant, improvements in self-reported health status compared with usual care. Changes in mortality and hospitalizations were even less clear.7,8 The investigators attributed some of the differences between HF-ACTION and the preceding studies to difficulty of exercise adherence in a large, multicenter population. The difficulty in engaging in and sustaining regular exercise by patients with HF is well recognized. Typically, these patients are older with multiple morbidities; they often are fundamentally limited by deconditioning and have low cardiac output, arrhythmias, anxiety, and depression. Easily implemented, practical interventions that are enjoyable, promote exercise self-efficacy, and increase quality of life are needed.

There is emerging interest in the application of “mind-body” exercises such as tai chi for patients with HF,912 although little is known about its efficacy in this population. Tai chi (tai chi chuan or taijiquan), is a gentle meditative exercise of flowing circular movements, balance and weight shifting, breathing techniques, visualization, and focused internal awareness.1316The physical activity of tai chi has been estimated in a range of 1.6 to 4.6 metabolic equivalents, achieving 50% to 74% of the maximal heart rate, depending on the age of the individual and the intensity of practice.1720 Tai chi may represent an additional exercise option for patients with HF because it integrates multiple relevant processes, including mild to moderate aerobic activity, upper and lower extremity training, and core strengthening. In addition, it includes a meditative component that may enhance stress management, promoting important psychosocial benefits for those living with HF.

A growing body of evidence suggests that tai chi may be helpful for a variety of medical issues, including hypertension, mood, impaired exercise capacity,9,2133 balance, and musculoskeletal disease.29,30,3447 Preliminary data from a pilot randomized controlled study24 among 30 patients with chronic systolic HF suggested that 12 weeks of tai chi training may improve quality of life, serum B-type natriuretic peptide levels, and 6-minute walk distance when compared with usual care. Other small nonrandomized studies9,26 in patients with HF have also suggested beneficial changes in symptoms, mood, and quality of life. Studies36,4854 have noted that tai chi is safe, is accessible, and has high rates of adherence. However, to our knowledge, larger-scale clinical trials of tai chi in patients with HF have not been reported.

In this context, our objective was to perform a large clinical trial to determine whether a 12-week tai chi exercise program improves exercise capacity and quality of life in patients with chronic systolic HF as an adjunct to standard medical care in comparison with group-based heart health education.

STUDY DESIGN

We recruited 100 patients from ambulatory clinics (primary care, general cardiology, and specialty heart failure practices) at 3 academic medical centers and affiliated practices in and around Boston, Massachusetts: Beth Israel Deaconess Medical Center, Brigham and Women's Hospital, and Massachusetts General Hospital. Potential participants were identified via multiple mechanisms, including direct physician referral and screening of clinic appointment logs and hospital databases. Patients who chose to participate provided written informed consent and were randomly assigned to receive a 12-week tai chi exercise program or a heart health education program (attention control). All participants continued to receive usual care, which included pharmacologic therapy and general exercise advice per American College of Cardiology guidelines.55 We used permuted block randomization with variable block size to generate treatment assignments. Each institution's human subjects review board approved the protocol. A CONSORT (Consolidated Standards for Reporting of Trials) flow diagram is provided in Figure 1. Inclusion criteria were (1) physician diagnosis of chronic systolic HF; (2) left ventricular ejection fraction 40% or lower in the past 2 years; (3) stable medical regimen, defined as no major changes in medication in the past 3 months; and (4) New York Heart Association class I, II, or III HF. Exclusion criteria were (1) unstable angina or myocardial infarction in the past 3 months, (2) major cardiac surgery within the past 3 months, (3) history of cardiac arrest in the past 6 months, (4) history of cardiac resynchronization therapy in the past 3 months, (5) unstable serious ventricular arrhythmias, (6) unstable structural valvular disease, (7) current participation in a conventional cardiac rehabilitation program, (8) diagnosis of peripartum cardiomyopathy within the preceding 6 months, (9) inability to perform a bicycle stress test, (10) lower extremity amputation or other inability to ambulate owing to conditions other than HF, (11) severe cognitive dysfunction (Mini-Mental State Examination score ≤24), (12) inability to speak English, and (13) regular practice of tai chi.

Place holder to copy figure label and caption
Figure 1.

Consolidated Standards for Reporting of Trials flow diagram. MLHFQ indicates Minnesota Living With Heart Failure Questionnaire; 6MW, 6-minute walk; V˙O2, oxygen intake.

Graphic Jump Location
TAI CHI INTERVENTION

The tai chi intervention consisted of 1-hour group classes held twice weekly for 12 weeks. We used the standard protocol of a pilot trial24 in patients with HF (Table 1). The development of that program was guided by similar interventions used in tai chi trials36 with elderly patients and those with limited mobility. The protocol included traditional warm-up exercises and 5 subsequent simplified tai chi movements. Each cohort was taught by 1 or 2 certified and experienced instructors (6 total study instructors with average experience of 20 years). Warm-up exercises included weight shifting; arm swinging; gentle stretches of the neck, shoulders, spine, arms, and legs; visualization techniques; and traditional breathing methods. These exercises focus on releasing tension in the body, incorporating mindfulness and imagery into movement, increasing awareness of breathing, and promoting overall relaxation of body and mind. The core tai chi movements were adapted from Master Cheng Man-Ch’ing's Yang-style short form13 and performed repetitively. Chairs were provided for resting, and patients were allowed to progress at their own comfort and pace. We provided a 35-minute instructional videotape that outlined the exercises presented in class. Patients were encouraged to practice at home at least 3 times per week. Class attendance was monitored and adherence to home practice was tracked via self-report logs. Participants also received the same educational pamphlets used in our education (control) group (described in next section) with a brief (<5-minute) explanation toward the end of 1 tai chi session weekly.

Table Graphic Jump LocationTable 1. Description of the Tai Chi Intervention
EDUCATION CONTROL

Patients in the attention control group attended education sessions twice weekly (same duration and frequency as the tai chi group). Classes were led by a nurse practitioner and followed the content of the 11 Heart Failure Society of America education modules. An additional module on cholesterol was added, using patient information from the National Heart, Lung and Blood Institute (http://www.nhlbi.nih.gov/health/public/heart/chol/hbc_what.htm). The 12 weekly modules (available at http://www.hfsa.org) included (1) taking control of your HF, (2) how to follow a low-sodium diet, (3) HF medicines, (4) self-care and dealing with HF symptoms, (5) exercise and activity, (6) managing feelings about HF, (7) tips for family and friends, (8) lifestyle changes, (9) advanced directives, (10) heart rhythm problems, (11) new HF treatments, and (12) high blood cholesterol levels. Each module consisted of a pamphlet that was distributed weekly and discussed during the 2 sessions conducted for each module. We asked participants not to start tai chi during the study period; however, they were offered the opportunity to take tai chi classes at the end of the 6-month follow-up period.

OUTCOME MEASURES

We obtained all measures at baseline and 12 weeks. Questionnaires and functional assessments were also obtained at 6 weeks. At 6 months, there was a follow-up telephone call during which we administered the Minnesota Living With Heart Failure Questionnaire (MLHFQ) and also asked about tai chi exercise. We masked the study staff performing all tests to each participant's group allocation.

Exercise Capacity and Functional Status

Patients performed a symptom-limited exercise test using a bicycle ramp protocol to determine peak oxygen uptake. Testing was done on an electronically calibrated upright bicycle, with expired gas analysis under continuous electrocardiographic monitoring. Blood pressure was measured at 3-minute intervals and just prior to stopping exercise. Participants were encouraged to exercise to exhaustion, and perceived exertion was measured using the Borg scale.56 Breath-by-breath respiratory gas analysis was performed using a metabolic cart (MedGraphics, St. Paul, Minnesota). Peak values were averaged from the final 20 seconds of the test.

In addition, patients underwent a 6-minute walk test, a standardized assessment that measures the distance walked in meters down a corridor.5759 The test was conducted on each of 3 occasions, at least 2 hours before the bicycle ergometer test, using scripted instructions. Patients were allowed to stop as needed if they became fatigued and were informed when there were 3 minutes and 1 minute remaining. We also performed a Timed Up and Go functional assessment,60 which measures the time needed for individuals to stand up from a chair, walk 3 meters, turn around a cone, walk back, and return to a seated position as quickly as possible.

Health-Related Quality-of-Life, Symptoms, Mood, and Psychosocial Functioning

For disease-specific quality of life, we used the MLHFQ, consisting of 21 validated items covering physical, psychological, and socioeconomic dimensions (eg, swelling in the ankles, difficulty climbing stairs, fatigue, feeling depressed, spending money for treatment of HF). The score range is 0 to 105, with a lower number denoting better quality of life. Prior studies61 have reported that a score of 7 indicates some degree of impaired quality of life and that an improvement of 5 points represents a clinically significant change.

We also used the Profile of Mood States, a well-validated62 instrument for assessing emotional states that are transient and expected to respond to clinical intervention. The instrument consists of 65 single-word items rated on a 5-point scale to indicate recent mood in 6 dimensions: tension/anxiety, depression/dejection, anger/hostility, vigor/activity, fatigue/inertia, and confusion/bewilderment. A decreased total mood disturbance score denotes an improved emotional state.63 Finally, we administered the Cardiac Exercise Self-efficacy Instrument, a validated64 16-item scale that assesses a patient's confidence to perform certain exercise-related activities on a 5-point scale. The score range is 16 to 80, with higher scores denoting increased self-efficacy.

Biomarkers

B-type natriuretic peptide was analyzed on whole blood collected in EDTA using a commercially available point-of-service meter (fluorescence immunoassay; Biosite Triage BNP Test; Biosite Diagnostics, San Diego, California). Serum samples for measurement of catecholamines (epinephrine, norepinephrine, and dopamine) were collected from an intravenous catheter and stored on ice after 20 minutes of patients resting in a supine position. We also analyzed samples for C-reactive protein, endothelin-1, and tumor necrosis factor.

Physical Activity

To track patients' physical activity outside of classes, we used the Community Healthy Activities Model Program for Seniors (CHAMPS) questionnaire,65 which captures weekly frequency and total time spent in age-appropriate activities and allows estimation of caloric expenditure.

Medications, Health Care Utilization, and Monitoring of Adverse Events

At each testing visit, we collected data on medications and health care utilization (hospitalization, emergency department visits, and outpatient visits). We asked about cardiac and noncardiac illnesses or events, as well as other potential adverse events, including falls.

STATISTICAL ANALYSIS

Based on data from the pilot study,24 a sample of 100 patients provided 80% power to detect a between-group difference of 1.5 for the change in peak oxygen uptake, more than 90% power to detect a difference in change in 6-minute walk of 80 m, and 83% power to detect a difference of 12.5 points on the MLHFQ. All statistical analyses were performed on an intention-to-treat basis. Baseline characteristics of patients were compared using 2-tailed t tests for continuous variables and Fisher exact test for nominal variables. Two-sample Wilcoxon rank-sum tests were used to compare the distribution of change from baseline to 12 weeks between groups. We calculated both means and medians (first and third quartiles) to summarize continuous data. To maintain a global 5% level of significance with 3 primary outcomes, we set a nominal level of significance of .017 for each outcome (using Bonferroni adjustment). For primary and secondary outcomes, we also adjusted for baseline values of the outcome variables; we fit a least-squares regression model for each outcome that included baseline value plus treatment indicator and report adjusted P values for treatment based on the Wald test. We fit similar models for exploring the effects in clinically relevant subgroups in which we hypothesized that there may be differences based on previously published information66 on patients with HF (eg, those with more severe symptoms, those with and without devices, ischemic vs nonischemic etiology of HF). We did not impute data but used data available for the patients who were observed at 12 weeks.

BASELINE CHARACTERISTICS

Characteristics of the 100 patients enrolled in the study are described inTable 2. The mean (SD) age of study participants was 67 (11) years, mean baseline left ventricular ejection fraction was 29% (8%), and median New York Heart Association class of HF was class II (range, I-III). The 2 groups were generally similar in demographics, clinical classification of heart disease severity, and rates of comorbidities. Most patients were on American College of Cardiology/American Heart Association consensus guideline therapy, with 86% of patients receiving a β-blocker and 85% receiving an angiotensin-converting enzyme inhibitor. Of note, 30% of patients reported a history of anxiety and depression.

Table Graphic Jump LocationTable 2. Baseline Characteristics of the Study Samplea
CHANGE IN CLINICAL OUTCOMES AFTER 12 WEEKS

Table 3 presents median outcome measures at baseline and 12 weeks. Although changes in peak oxygen uptake and 6-minute walk were similar in the tai chi and attention control populations, estimated metabolic expenditure (calories per week spent in moderate-intensity activities outside the study class) as measured by the CHAMPS questionnaire increased significantly in the tai chi group (median [first, third quartile], 323 [−27, 710] vs 156 [−929, 334] calories, P = .05). We observed significant improvements in scores on the MLHFQ, Profile of Mood States (total mood disturbance, depression, and vigor subscales), and Cardiac Exercise Self-efficacy Instrument in the tai chi group compared with the heart health education group. There were no significant changes in other Profile of Mood States subscales, and no significant changes were seen in the serum biomarkers. Figure 2 presents changes in the MLHFQ score during the study.

Place holder to copy figure label and caption
Figure 2.

Change in quality of life assessed by the Minnesota Living With Heart Failure Questionnaire score. Limit lines represent SD.

Graphic Jump Location
Table Graphic Jump LocationTable 3. Comparisons of the Effects of Tai Chi vs Education on Change in Outcome During 12 Weeks

In post hoc exploratory analyses, we found that, in patients without implanted cardioverter-defibrillator devices (n = 50), the tai chi group experienced improved MLHFQ score significantly more than the education group (median [first, third quartile], −11 [−23, −4] vs −4 [−12, 7], P = .04) . Improvements in the MLHFQ score with tai chi were also pronounced in the subsets of patients with New York Heart Association class II and III symptoms (n = 80) (median [first, third quartile], −11 [−23, −3] vs −7 [−17, 2], P = .01) and those with a nonischemic etiology of HF (n = 46) (median [first, third quartile], −18 [−23, −3] vs −5 [−16, 2], P = .03). We also found a statistically significant difference in change in use of statin medication during the 12 weeks, with 6 patients (12.0%) in the education group either increasing their dosage or starting a new medication, and 1 patient (2.0%) in the tai chi group discontinuing the medication (P = .01). In addition, we found that participants with a higher baseline resting heart rate had greater improvements in the MLHFQ score in the tai chi group (β coefficient [SE], −0.52 [0.1], P = .009); there was no association in the control group (β coefficient [SE], 0.06 [0.2], P = .78). The mean (SD) resting heart rate in the tai chi group was 71 (11) bpm (range, 50-100 bpm).

At 6 months’ follow-up (3 months after the intervention ended), there remained a trend toward improved MLHFQ score in the tai chi vs education group (median [first, third quartile], −12.5 [−23, 3] vs −4 [−18, 3]); however, this difference was no longer significant.

ADHERENCE AND SAFETY

Adherence to the study protocol was good. The mean proportions of classes attended were 18 of 24 (75.0%) and 16 of 24 (66.7%) in the tai chi and education groups, respectively. The mean (SD) number of hours of home tai chi practice during the 12 weeks was 9.6 (9.9) hours. At 6 months’ follow-up telephone contact, 34 patients in the tai chi group (68.0%) reported continued practice (including daily, weekly, and monthly). There were no adverse events related to the protocol. However, we documented several events during the study period, including 3 deaths (in the education group), 6 hospitalizations (HF exacerbation/angina/shortness of breath: 2 in the tai chi group and 4 in the education group), 2 arrhythmias (in the tai chi group), 2 episodes of syncope (in the education group), and 3 falls (2 in the tai chi group and 1 in the education group).

As a complement to standard medical care, we found that tai chi has potential clinical benefits including enhancement in quality of life, mood, and exercise self-efficacy, despite the absence of differential improvement in peak oxygen intake and 6-minute walk test compared with education only. While outcomes in these traditional exercise parameters did not change significantly between groups, the low-intensity tai chi program seems to have achieved other measurable training benefits, including increased daily activity (as measured by the CHAMPS questionnaire) and related feelings of well-being.

Our findings support those of prior studies of tai chi that also reported improvements in quality of life, mood (decrease in anxiety and enhancement in vigor), and exercise self-efficacy in other patient populations, including those with cardiovascular disease and cardiovascular risk factors.28,68

Because chronic systolic HF is a progressive and debilitating condition, the importance of beneficially affecting patient-perceived quality of life is increasingly appreciated. We observed large, clinically significant changes in quality of life in this study, similar to or even greater than what has been seen with cardiac resynchronization therapy.69 In addition, given the relationship between depression and HF, improvement in mood in this population is also highly relevant. While there were modest changes in measured exercise capacity, these cannot be attributed to tai chi, since the groups improved equally. It is possible that our education control group was motivated to increase their exercise level during the study period, accounting for their increase in exercise capacity, although this was not detected with the CHAMPS questionnaire. Direct comparisons are difficult; however, the magnitude of changes in exercise capacity seen at 12 weeks in this trial are similar to or larger than those reported with conventional exercise in the multicenter trial, HF-ACTION.7,8

One of the purported mechanisms of mind-body exercises, such as tai chi, is favorable modulation of the autonomic nervous system. In our post hoc analyses, we found that, in participants with higher resting heart rates (and presumably more sympathetic nervous system “overdrive”), there was a greater benefit with tai chi. The pilot study24 of tai chi in patients with HF reported larger changes in outcomes (improvements in quality of life, exercise capacity, and B-type natriuretic peptide). The mean resting heart rate in the tai chi group in that study was somewhat higher than that in the present study (75 vs 71 bpm), possibly contributing to the differences in findings between the 2 studies. These observations need further investigation but may offer insight into which subpopulations of patients may respond better to a mind-body exercise intervention.

Tai chi appears to be a safe alternative to low to moderate-intensity conventional exercise training in patients with HF. We observed no adverse events related to the intervention. Two prior trials2123 in patients at higher risk (recovering from coronary bypass surgery and myocardial infarction) also reported no adverse effects. Apparent safety has also been reported among several other populations, including transitionally frail adults,35 patients with arthritis,70,71 and balance-impaired individuals with vestibular disease.52,72

This study has several limitations. First, patients were not masked to intervention group. However, we attempted to minimize the potential effects of disappointment in the education group by offering tai chi classes at the end of the 6-month follow-up period. Second, with a sample of 100 patients, only a small proportion of eligible patients enrolled in this trial, which could introduce selection bias. In addition, we are unable to provide a definitive physiological mechanism for tai chi's effects. Nonetheless, this study provides informative data from the first large-scale clinical trial of tai chi exercise in an HF population.

In conclusion, tai chi exercise, a multicomponent mind-body training modality that is safe and has good rates of adherence, may provide value in improving daily exercise, quality of life, self-efficacy, and mood in frail, deconditioned patients with systolic HF. A more restricted focus on traditional measured exercise capacity may underestimate the potential benefits of integrated interventions such as tai chi.

Future steps should include research at both ends of the translational research continuum. At the pragmatic end, we might explore how these clinical observations translate into community-based programs, the feasibility of more wider spread implementation, and cost-effectiveness studies. At the basic science end, we need further study of the mechanisms by which tai chi benefits patients with cardiovascular disease and to better understand how the multiple components of tai chi (eg, deep breathing, aerobic exercise, cognitive restructuring, and social interactions) might affect various outcomes (eg, autonomic physiology, exercise capacity, or mood). This elucidation of plausible physiological mechanisms may allow us to better tailor our interventions, target subpopulations with specific constellations of symptoms, and further support clinical findings.

Correspondence: Gloria Y. Yeh, MD, MPH, Division of General Medicine and Primary Care, Beth Israel Deaconess Medical Center, 1309 Beacon St, Second Floor, Brookline, MA 02446 (gyeh@bidmc.harvard.edu).

Accepted for Publication: December 27, 2010.

Author Contributions:Study concept and design: Yeh, Wayne, Stevenson, Wood, Davis, and Phillips. Acquisition of data: Yeh, McCarthy, Stevenson, Wood, Forman, and Phillips. Analysis and interpretation of data: Yeh, McCarthy, Wayne, Stevenson, Forman, Davis, and Phillips. Drafting of the manuscript: Yeh and Phillips. Critical revision of the manuscript for important intellectual content: Yeh, McCarthy, Wayne, Stevenson, Wood, Forman, Davis, and Phillips. Statistical analysis: Yeh, McCarthy, and Davis. Obtained funding: Yeh, Wayne, Wood, and Phillips. Administrative, technical, and material support: Yeh, McCarthy, and Forman. Study supervision: Yeh, Wayne, Stevenson, and Phillips.

Financial Disclosure: None reported.

Funding/Support: This study was supported by the R01 AT002454 award from the National Center for Complementary and Alternative Medicine (Dr Phillips) and in part by grant RR 01032 from the Beth Israel Deaconess Medical Center General Clinical Research Center from the National Institutes of Health (NIH). Dr Yeh was supported by the career-investigator award K23 AT002624 from the NIH National Center for Complementary and Alternative Medicine (NCCAM). Dr Wayne was supported by Center grant U19 AT002022 from the NIH NCCAM.

Additional Contributions: We thank Charles Blatt, MD, James Chang, MD, Ary Goldberger, MD, Monique Nestor, NP, Diane Perry, LPN, CCT, and Mark Stockman, MD, for their invaluable contributions to the study. We also express gratitude to all our study staff who worked tirelessly on this project for many years; a special acknowledgment and appreciation also go to each of our tai chi instructors for their enthusiasm, support, and wisdom. Finally, we offer sincere and heartfelt gratitude to all the patients involved in this trial who provided the inspiration for this work.

Coats  AJ Exercise training in heart failure. Curr Control Trials Cardiovasc Med 2000;1 (3) 155- 160
PubMed
Piña  ILApstein  CSBalady  GJ  et al. American Heart Association Committee on exercise, rehabilitation, and prevention, Exercise and heart failure: a statement from the American Heart Association Committee on exercise, rehabilitation, and prevention. Circulation 2003;107 (8) 1210- 1225
PubMed
Hunt  SBaker  DWChin  MH  et al.  ACC/AHA guidelines for the evaluation and management of chronic heart failure in the adult: executive summary: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Committee to Revise the 1995 Guidelines for the Evaluation and Management of Heart Failure): developed in collaboration with the International Society of Heart and Lung Transplantation; Heart Failure Society of America. Circulation 2001;104 (24) 2996- 3007
PubMed
Coats  AJAdamopoulos  SRadaelli  A  et al.  Controlled trial of physical training in chronic heart failure: exercise performance, hemodynamics, ventilation, and autonomic function. Circulation 1992;85 (6) 2119- 2131
PubMed
Kiilavuori  KToivonen  LNäveri  HLeinonen  H Reversal of autonomic derangements by physical training in chronic heart failure assessed by heart rate variability. Eur Heart J 1995;16 (4) 490- 495
PubMed
Belardinelli  RGeorgiou  DCianci  GPurcaro  A Randomized, controlled trial of long-term moderate exercise training in chronic heart failure: effects on functional capacity, quality of life, and clinical outcome. Circulation 1999;99 (9) 1173- 1182
PubMed
O’Connor  CMWhellan  DJLee  KL  et al. HF-ACTION Investigators, Efficacy and safety of exercise training in patients with chronic heart failure: HF-ACTION randomized controlled trial. JAMA 2009;301 (14) 1439- 1450
PubMed
Flynn  KEPiña  ILWhellan  DJ  et al. HF-ACTION Investigators, Effects of exercise training on health status in patients with chronic heart failure: HF-ACTION randomized controlled trial. JAMA 2009;301 (14) 1451- 1459
PubMed
Fontana  JAColella  CBaas  LSGhazi  F T’ai chi chih as an intervention for heart failure. Nurs Clin North Am 2000;35 (4) 1031- 1046
PubMed
Luskin  FMNewell  KAGriffith  M  et al.  A review of mind-body therapies in the treatment of cardiovascular disease, part 1: implications for the elderly. Altern Ther Health Med 1998;4 (3) 46- 61
PubMed
Taylor-Piliae  RE Tai chi as an adjunct to cardiac rehabilitation exercise training. J Cardiopulm Rehabil 2003;23 (2) 90- 96
PubMed
Wong  SSNahin  RL National Center for Complementary and Alternative Medicine perspectives for complementary and alternative medicine research in cardiovascular diseases. Cardiol Rev 2003;11 (2) 94- 98
PubMed
Cheng  MC Master Cheng's Thirteen Chapters on T’ai Chi Chuan.  New York. NY Sweet Chi Press1982;
Plummer  JP Acupuncture and tai chi chuan (Chinese shadow boxing): body-mind therapies affecting homeostasis. Lau  YThe Scientific Basis of Traditional Chinese Medicine. Hong Kong University of Hong Kong1982;
Frantzis  B The Power of Internal Martial Arts: Combat Secrets of Ba Gua, Tai Chi, and Hsing-I.  Berkeley, CA North Atlantic Books1998;
Holm  B Gateways to health: taijiquan and traditional Chinese medicine. Taijiquan J 2002;3 (1) 8- 12
Fontana  JAColella  CWilson  BRBaas  L The energy costs of a modified form of t’ai chi exercise. Nurs Res 2000;49 (2) 91- 96
PubMed
Lan  CChen  SYLai  JS The exercise intensity of tai chi chuan. Med Sport Sci 2008;5212- 19
PubMed
Brown  DDMucci  WGHetzler  RKKnowlton  RG Cardiovascular and ventilatory responses during formalized t’ai chi chuan exercise. Res Q Exerc Sport 1989;60 (3) 246- 250
PubMed
Schaller  KJ Tai chi chih: an exercise option for older adults. J Gerontol Nurs 1996;22 (10) 12- 17
PubMed
Channer  KSBarrow  DBarrow  ROsborne  MIves  G Changes in haemodynamic parameters following tai chi chuan and aerobic exercise in patients recovering from acute myocardial infarction. Postgrad Med J 1996;72 (848) 349- 351
PubMed
Lan  CChen  SYLai  JSWong  MK The effect of tai chi on cardiorespiratory function in patients with coronary artery bypass surgery. Med Sci Sports Exerc 1999;31 (5) 634- 638
PubMed
Lan  CChen  SYWong  MKLai  JS Tai chi training for patients with coronary heart disease. Med Sport Sci 2008;52182- 194
PubMed
Yeh  GYWood  MJLorell  BH  et al.  Effects of tai chi mind-body movement therapy on functional status and exercise capacity in patients with chronic heart failure: a randomized controlled trial. Am J Med 2004;117 (8) 541- 548
PubMed
Yeh  GYMietus  JEPeng  CK  et al.  Enhancement of sleep stability with tai chi exercise in chronic heart failure: preliminary findings using an ECG-based spectrogram method. Sleep Med 2008;9 (5) 527- 536
PubMed
Barrow  DEBedford  AIves  GO’Toole  LChanner  KS An evaluation of the effects of tai chi chuan and chi kung training in patients with symptomatic heart failure: a randomised controlled pilot study. Postgrad Med J 2007;83 (985) 717- 721
PubMed
Young  DRAppel  LJJee  SMiller  ER  III The effects of aerobic exercise and t’ai chi on blood pressure in older people: results of a randomized trial. J Am Geriatr Soc 1999;47 (3) 277- 284
PubMed
Yeh  GYWang  CWayne  PMPhillips  RS The effect of tai chi exercise on blood pressure: a systematic review. Prev Cardiol 2008;11 (2) 82- 89
PubMed
Lan  CLai  JSWong  MKYu  ML Cardiorespiratory function, flexibility, and body composition among geriatric tai chi chuan practitioners. Arch Phys Med Rehabil 1996;77 (6) 612- 616
PubMed
Lan  CLai  JSChen  SYWong  MK 12-Month tai chi training in the elderly: its effect on health fitness. Med Sci Sports Exerc 1998;30 (3) 345- 351
PubMed
Schneider  DLeung  R Metabolic and cardiorespiratory responses to the performance of wing chun and t’ai chi chuan exercise. Int J Sports Med 1991;12 (3) 319- 323
PubMed
Lai  JSLan  CWong  MKTeng  SH Two-year trends in cardiorespiratory function among older tai chi chuan practitioners and sedentary subjects. J Am Geriatr Soc 1995;43 (11) 1222- 1227
PubMed
Lai  JSWong  MKLan  CChong  CKLien  IN Cardiorespiratory responses of tai chi chuan practitioners and sedentary subjects during cycle ergometry. J Formos Med Assoc 1993;92 (10) 894- 899
PubMed
Wolf  SLBarnhart  HXKutner  NGMcNeely  ECoogler  CXu  TAtlanta FICSIT Group: Frailty and Injuries: Cooperative Studies of Intervention Techniques, Reducing frailty and falls in older persons: an investigation of tai chi and computerized balance training. J Am Geriatr Soc 1996;44 (5) 489- 497
PubMed
Wolf  SLSattin  RWKutner  MO’Grady  MGreenspan  AIGregor  RJ Intense tai chi exercise training and fall occurrences in older, transitionally frail adults: a randomized, controlled trial. J Am Geriatr Soc 2003;51 (12) 1693- 1701
PubMed
Wolf  SLCoogler  CXu  T Exploring the basis for tai chi chuan as a therapeutic exercise approach. Arch Phys Med Rehabil 1997;78 (8) 886- 892
PubMed
Jacobson  BHChen  HCCashel  CGuerrero  L The effect of t’ai chi chuan training on balance, kinesthetic sense, and strength. Percept Mot Skills 1997;84 (1) 27- 33
PubMed
Yan  JH Tai chi practice improves senior citizens' balance and arm movement control. J Aging Phys Act 1998;6 (3) 271- 284
Hain  TCFuller  LWeil  LKotsias  J Effects of t’ai chi on balance. Arch Otolaryngol Head Neck Surg 1999;125 (11) 1191- 1195
PubMed
Hong  YLi  JXRobinson  PD Balance control, flexibility, and cardiorespiratory fitness among older tai chi practitioners. Br J Sports Med 2000;34 (1) 29- 34
PubMed
Wong  AMLin  YCChou  SWTang  FTWong  PY Coordination exercise and postural stability in elderly people: effect of tai chi chuan. Arch Phys Med Rehabil 2001;82 (5) 608- 612
PubMed
Sun  WYDosch  MGilmore  GDPemberton  WScarseth  T Effects of a tai chi chuan program on Hmong American older adults. Educ Gerontol 1996;22 (2) 161- 16710.1080/0360127960220202
Lan  CLai  JSChen  SYWong  MK Tai chi chuan to improve muscular strength and endurance in elderly individuals: a pilot study. Arch Phys Med Rehabil 2000;81 (5) 604- 607
PubMed
Wu  GZhao  FZhou  XWei  L Improvement of isokinetic knee extensor strength and reduction of postural sway in the elderly from long-term tai chi exercise. Arch Phys Med Rehabil 2002;83 (10) 1364- 1369
PubMed
Kirsteins  AEDietz  FHwang  SM Evaluating the safety and potential use of a weight-bearing exercise, tai-chi chuan, for rheumatoid arthritis patients. Am J Phys Med Rehabil 1991;70 (3) 136- 141
PubMed
Wang  CRoubenoff  RLau  J  et al.  Effect of tai chi in adults with rheumatoid arthritis. Rheumatology (Oxford) 2005;44 (5) 685- 687
PubMed
Hartman  CAManos  TMWinter  CHartman  DMLi  BSmith  JC Effects of t’ai chi training on function and quality of life indicators in older adults with osteoarthritis. J Am Geriatr Soc 2000;48 (12) 1553- 1559
PubMed
Sandlund  ESNorlander  T The effects of tai chi chuan relaxation and exercise on stress responses and well-being: an overview of research. Int J Stress Manag 2000;7 (2) 139- 14910.1023/A:1009536319034
Lan  CLai  JSChen  SY Tai chi chuan: an ancient wisdom on exercise and health promotion. Sports Med 2002;32 (4) 217- 224
PubMed
Wu  G Evaluation of the effectiveness of tai chi for improving balance and preventing falls in the older population—a review. J Am Geriatr Soc 2002;50 (4) 746- 754
PubMed
Li  JXHong  YChan  KM Tai chi: physiological characteristics and beneficial effects on health. Br J Sports Med 2001;35 (3) 148- 156
PubMed
Wayne  PMKrebs  DEWolf  SL  et al.  Can Tai Chi improve vestibulopathic postural control? Arch Phys Med Rehabil 2004;85 (1) 142- 152
PubMed
Wayne  PMKiel  DPKrebs  DE  et al.  The effects of tai chi on bone mineral density in postmenopausal women: a systematic review. Arch Phys Med Rehabil 2007;88 (5) 673- 680
PubMed
Wang  CCollet  JPLau  J The effect of tai chi on health outcomes in patients with chronic conditions: a systematic review. Arch Intern Med 2004;164 (5) 493- 501
PubMed
 ACC/AHA 2005 Guideline update for the diagnosis and management of chronic heart failure in the adult—summary article: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Update the 2001 Guidelines for the Evaluation and Management of Heart Failure): developed in collaboration with the American College of Chest Physicians and the International Society for Heart and Lung Transplantation: endorsed by the Heart Rhythm Society. Circulation 2005;112 (12) 1825- 185210.1161/CIRCULATIONAHA.105.167587
Borg  GA Psychophysical bases of perceived exertion. Med Sci Sports Exerc 1982;14 (5) 377- 381
PubMed
Guyatt  GHSullivan  MJThompson  PJ  et al.  The 6-minute walk: a new measure of exercise capacity in patients with chronic heart failure. Can Med Assoc J 1985;132 (8) 919- 923
PubMed
Zugck  CKrüger  CDürr  S  et al.  Is the 6-minute walk test a reliable substitute for peak oxygen uptake in patients with dilated cardiomyopathy? Eur Heart J 2000;21 (7) 540- 549
PubMed
Kao  WJessup  M Exercise testing and exercise training in patients with congestive heart failure. J Heart Lung Transplant 1994;13 (4) S117- S121
PubMed
Gerardi  DALovett  LBenoit-Connors  MLReardon  JZZuWallack  RL Variables related to increased mortality following out-patient pulmonary rehabilitation. Eur Respir J 1996;9 (3) 431- 435
PubMed
Rector  TSTschumperlin  LKKubo  SH  et al.  Use of the Living With Heart Failure Questionnaire to ascertain patients' perspectives on improvement in quality of life versus risk of drug-induced death. J Card Fail 1995;1 (3) 201- 206
PubMed
McNair  DMLorr  MDroppelman  LF Manual for the Profile of Mood States.  San Diego, CA EDITS Educational and Industrial Testing Services Inc1992;
Beniamini  YRubenstein  JJZaichkowsky  LDCrim  MC Effects of high-intensity strength training on quality-of-life parameters in cardiac rehabilitation patients. Am J Cardiol 1997;80 (7) 841- 846
PubMed
Hickey  MLOwen  SVFroman  RD Instrument development: cardiac diet and exercise self-efficacy. Nurs Res 1992;41 (6) 347- 351
PubMed
Stewart  ALMills  KMKing  ACHaskell  WLGillis  DRitter  PL CHAMPS physical activity questionnaire for older adults: outcomes for interventions. Med Sci Sports Exerc 2001;33 (7) 1126- 1141
PubMed
Woo  GWPetersen-Stejskal  SJohnson  JWConti  JBAranda  JA  JrCurtis  AB Ventricular reverse remodeling and 6-month outcomes in patients receiving cardiac resynchronization therapy: analysis of the MIRACLE study. J Interv Card Electrophysiol 2005;12 (2) 107- 113
Charlson  MEPompei  PAles  KLMacKenzie  CR A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis 1987;40 (5) 373- 383
Yeh  GYWang  CWayne  PMPhillips  R Tai chi exercise for patients with cardiovascular conditions and risk factors: a systematic review. J Cardiopulm Rehabil Prev 2009;29 (3) 152- 160
PubMed
Abraham  WTFisher  WGSmith  AL  et al. MIRACLE Study Group, Cardiac resynchronization in chronic heart failure. N Engl J Med 2002;346 (24) 1845- 1853
PubMed
Wang  CSchmid  CHHibberd  PL  et al.  Tai chi is effective in treating knee osteoarthritis: a randomized controlled trial. Arthritis Rheum 2009;61 (11) 1545- 1553
PubMed
Wang  C Tai chi improves pain and functional status in adults with rheumatoid arthritis: results of a pilot single-blinded randomized controlled trial. Med Sport Sci 2008;52218- 229
PubMed
Wayne  PMScarborough  DMKrebs  DE  et al.  Tai chi for vestibulopathic balance dysfunction: a case study. Altern Ther Health Med 2005;11 (2) 60- 66
PubMed

Figures

Place holder to copy figure label and caption
Figure 1.

Consolidated Standards for Reporting of Trials flow diagram. MLHFQ indicates Minnesota Living With Heart Failure Questionnaire; 6MW, 6-minute walk; V˙O2, oxygen intake.

Graphic Jump Location
Place holder to copy figure label and caption
Figure 2.

Change in quality of life assessed by the Minnesota Living With Heart Failure Questionnaire score. Limit lines represent SD.

Graphic Jump Location

Tables

Table Graphic Jump LocationTable 1. Description of the Tai Chi Intervention
Table Graphic Jump LocationTable 2. Baseline Characteristics of the Study Samplea
Table Graphic Jump LocationTable 3. Comparisons of the Effects of Tai Chi vs Education on Change in Outcome During 12 Weeks

References

Coats  AJ Exercise training in heart failure. Curr Control Trials Cardiovasc Med 2000;1 (3) 155- 160
PubMed
Piña  ILApstein  CSBalady  GJ  et al. American Heart Association Committee on exercise, rehabilitation, and prevention, Exercise and heart failure: a statement from the American Heart Association Committee on exercise, rehabilitation, and prevention. Circulation 2003;107 (8) 1210- 1225
PubMed
Hunt  SBaker  DWChin  MH  et al.  ACC/AHA guidelines for the evaluation and management of chronic heart failure in the adult: executive summary: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Committee to Revise the 1995 Guidelines for the Evaluation and Management of Heart Failure): developed in collaboration with the International Society of Heart and Lung Transplantation; Heart Failure Society of America. Circulation 2001;104 (24) 2996- 3007
PubMed
Coats  AJAdamopoulos  SRadaelli  A  et al.  Controlled trial of physical training in chronic heart failure: exercise performance, hemodynamics, ventilation, and autonomic function. Circulation 1992;85 (6) 2119- 2131
PubMed
Kiilavuori  KToivonen  LNäveri  HLeinonen  H Reversal of autonomic derangements by physical training in chronic heart failure assessed by heart rate variability. Eur Heart J 1995;16 (4) 490- 495
PubMed
Belardinelli  RGeorgiou  DCianci  GPurcaro  A Randomized, controlled trial of long-term moderate exercise training in chronic heart failure: effects on functional capacity, quality of life, and clinical outcome. Circulation 1999;99 (9) 1173- 1182
PubMed
O’Connor  CMWhellan  DJLee  KL  et al. HF-ACTION Investigators, Efficacy and safety of exercise training in patients with chronic heart failure: HF-ACTION randomized controlled trial. JAMA 2009;301 (14) 1439- 1450
PubMed
Flynn  KEPiña  ILWhellan  DJ  et al. HF-ACTION Investigators, Effects of exercise training on health status in patients with chronic heart failure: HF-ACTION randomized controlled trial. JAMA 2009;301 (14) 1451- 1459
PubMed
Fontana  JAColella  CBaas  LSGhazi  F T’ai chi chih as an intervention for heart failure. Nurs Clin North Am 2000;35 (4) 1031- 1046
PubMed
Luskin  FMNewell  KAGriffith  M  et al.  A review of mind-body therapies in the treatment of cardiovascular disease, part 1: implications for the elderly. Altern Ther Health Med 1998;4 (3) 46- 61
PubMed
Taylor-Piliae  RE Tai chi as an adjunct to cardiac rehabilitation exercise training. J Cardiopulm Rehabil 2003;23 (2) 90- 96
PubMed
Wong  SSNahin  RL National Center for Complementary and Alternative Medicine perspectives for complementary and alternative medicine research in cardiovascular diseases. Cardiol Rev 2003;11 (2) 94- 98
PubMed
Cheng  MC Master Cheng's Thirteen Chapters on T’ai Chi Chuan.  New York. NY Sweet Chi Press1982;
Plummer  JP Acupuncture and tai chi chuan (Chinese shadow boxing): body-mind therapies affecting homeostasis. Lau  YThe Scientific Basis of Traditional Chinese Medicine. Hong Kong University of Hong Kong1982;
Frantzis  B The Power of Internal Martial Arts: Combat Secrets of Ba Gua, Tai Chi, and Hsing-I.  Berkeley, CA North Atlantic Books1998;
Holm  B Gateways to health: taijiquan and traditional Chinese medicine. Taijiquan J 2002;3 (1) 8- 12
Fontana  JAColella  CWilson  BRBaas  L The energy costs of a modified form of t’ai chi exercise. Nurs Res 2000;49 (2) 91- 96
PubMed
Lan  CChen  SYLai  JS The exercise intensity of tai chi chuan. Med Sport Sci 2008;5212- 19
PubMed
Brown  DDMucci  WGHetzler  RKKnowlton  RG Cardiovascular and ventilatory responses during formalized t’ai chi chuan exercise. Res Q Exerc Sport 1989;60 (3) 246- 250
PubMed
Schaller  KJ Tai chi chih: an exercise option for older adults. J Gerontol Nurs 1996;22 (10) 12- 17
PubMed
Channer  KSBarrow  DBarrow  ROsborne  MIves  G Changes in haemodynamic parameters following tai chi chuan and aerobic exercise in patients recovering from acute myocardial infarction. Postgrad Med J 1996;72 (848) 349- 351
PubMed
Lan  CChen  SYLai  JSWong  MK The effect of tai chi on cardiorespiratory function in patients with coronary artery bypass surgery. Med Sci Sports Exerc 1999;31 (5) 634- 638
PubMed
Lan  CChen  SYWong  MKLai  JS Tai chi training for patients with coronary heart disease. Med Sport Sci 2008;52182- 194
PubMed
Yeh  GYWood  MJLorell  BH  et al.  Effects of tai chi mind-body movement therapy on functional status and exercise capacity in patients with chronic heart failure: a randomized controlled trial. Am J Med 2004;117 (8) 541- 548
PubMed
Yeh  GYMietus  JEPeng  CK  et al.  Enhancement of sleep stability with tai chi exercise in chronic heart failure: preliminary findings using an ECG-based spectrogram method. Sleep Med 2008;9 (5) 527- 536
PubMed
Barrow  DEBedford  AIves  GO’Toole  LChanner  KS An evaluation of the effects of tai chi chuan and chi kung training in patients with symptomatic heart failure: a randomised controlled pilot study. Postgrad Med J 2007;83 (985) 717- 721
PubMed
Young  DRAppel  LJJee  SMiller  ER  III The effects of aerobic exercise and t’ai chi on blood pressure in older people: results of a randomized trial. J Am Geriatr Soc 1999;47 (3) 277- 284
PubMed
Yeh  GYWang  CWayne  PMPhillips  RS The effect of tai chi exercise on blood pressure: a systematic review. Prev Cardiol 2008;11 (2) 82- 89
PubMed
Lan  CLai  JSWong  MKYu  ML Cardiorespiratory function, flexibility, and body composition among geriatric tai chi chuan practitioners. Arch Phys Med Rehabil 1996;77 (6) 612- 616
PubMed
Lan  CLai  JSChen  SYWong  MK 12-Month tai chi training in the elderly: its effect on health fitness. Med Sci Sports Exerc 1998;30 (3) 345- 351
PubMed
Schneider  DLeung  R Metabolic and cardiorespiratory responses to the performance of wing chun and t’ai chi chuan exercise. Int J Sports Med 1991;12 (3) 319- 323
PubMed
Lai  JSLan  CWong  MKTeng  SH Two-year trends in cardiorespiratory function among older tai chi chuan practitioners and sedentary subjects. J Am Geriatr Soc 1995;43 (11) 1222- 1227
PubMed
Lai  JSWong  MKLan  CChong  CKLien  IN Cardiorespiratory responses of tai chi chuan practitioners and sedentary subjects during cycle ergometry. J Formos Med Assoc 1993;92 (10) 894- 899
PubMed
Wolf  SLBarnhart  HXKutner  NGMcNeely  ECoogler  CXu  TAtlanta FICSIT Group: Frailty and Injuries: Cooperative Studies of Intervention Techniques, Reducing frailty and falls in older persons: an investigation of tai chi and computerized balance training. J Am Geriatr Soc 1996;44 (5) 489- 497
PubMed
Wolf  SLSattin  RWKutner  MO’Grady  MGreenspan  AIGregor  RJ Intense tai chi exercise training and fall occurrences in older, transitionally frail adults: a randomized, controlled trial. J Am Geriatr Soc 2003;51 (12) 1693- 1701
PubMed
Wolf  SLCoogler  CXu  T Exploring the basis for tai chi chuan as a therapeutic exercise approach. Arch Phys Med Rehabil 1997;78 (8) 886- 892
PubMed
Jacobson  BHChen  HCCashel  CGuerrero  L The effect of t’ai chi chuan training on balance, kinesthetic sense, and strength. Percept Mot Skills 1997;84 (1) 27- 33
PubMed
Yan  JH Tai chi practice improves senior citizens' balance and arm movement control. J Aging Phys Act 1998;6 (3) 271- 284
Hain  TCFuller  LWeil  LKotsias  J Effects of t’ai chi on balance. Arch Otolaryngol Head Neck Surg 1999;125 (11) 1191- 1195
PubMed
Hong  YLi  JXRobinson  PD Balance control, flexibility, and cardiorespiratory fitness among older tai chi practitioners. Br J Sports Med 2000;34 (1) 29- 34
PubMed
Wong  AMLin  YCChou  SWTang  FTWong  PY Coordination exercise and postural stability in elderly people: effect of tai chi chuan. Arch Phys Med Rehabil 2001;82 (5) 608- 612
PubMed
Sun  WYDosch  MGilmore  GDPemberton  WScarseth  T Effects of a tai chi chuan program on Hmong American older adults. Educ Gerontol 1996;22 (2) 161- 16710.1080/0360127960220202
Lan  CLai  JSChen  SYWong  MK Tai chi chuan to improve muscular strength and endurance in elderly individuals: a pilot study. Arch Phys Med Rehabil 2000;81 (5) 604- 607
PubMed
Wu  GZhao  FZhou  XWei  L Improvement of isokinetic knee extensor strength and reduction of postural sway in the elderly from long-term tai chi exercise. Arch Phys Med Rehabil 2002;83 (10) 1364- 1369
PubMed
Kirsteins  AEDietz  FHwang  SM Evaluating the safety and potential use of a weight-bearing exercise, tai-chi chuan, for rheumatoid arthritis patients. Am J Phys Med Rehabil 1991;70 (3) 136- 141
PubMed
Wang  CRoubenoff  RLau  J  et al.  Effect of tai chi in adults with rheumatoid arthritis. Rheumatology (Oxford) 2005;44 (5) 685- 687
PubMed
Hartman  CAManos  TMWinter  CHartman  DMLi  BSmith  JC Effects of t’ai chi training on function and quality of life indicators in older adults with osteoarthritis. J Am Geriatr Soc 2000;48 (12) 1553- 1559
PubMed
Sandlund  ESNorlander  T The effects of tai chi chuan relaxation and exercise on stress responses and well-being: an overview of research. Int J Stress Manag 2000;7 (2) 139- 14910.1023/A:1009536319034
Lan  CLai  JSChen  SY Tai chi chuan: an ancient wisdom on exercise and health promotion. Sports Med 2002;32 (4) 217- 224
PubMed
Wu  G Evaluation of the effectiveness of tai chi for improving balance and preventing falls in the older population—a review. J Am Geriatr Soc 2002;50 (4) 746- 754
PubMed
Li  JXHong  YChan  KM Tai chi: physiological characteristics and beneficial effects on health. Br J Sports Med 2001;35 (3) 148- 156
PubMed
Wayne  PMKrebs  DEWolf  SL  et al.  Can Tai Chi improve vestibulopathic postural control? Arch Phys Med Rehabil 2004;85 (1) 142- 152
PubMed
Wayne  PMKiel  DPKrebs  DE  et al.  The effects of tai chi on bone mineral density in postmenopausal women: a systematic review. Arch Phys Med Rehabil 2007;88 (5) 673- 680
PubMed
Wang  CCollet  JPLau  J The effect of tai chi on health outcomes in patients with chronic conditions: a systematic review. Arch Intern Med 2004;164 (5) 493- 501
PubMed
 ACC/AHA 2005 Guideline update for the diagnosis and management of chronic heart failure in the adult—summary article: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Update the 2001 Guidelines for the Evaluation and Management of Heart Failure): developed in collaboration with the American College of Chest Physicians and the International Society for Heart and Lung Transplantation: endorsed by the Heart Rhythm Society. Circulation 2005;112 (12) 1825- 185210.1161/CIRCULATIONAHA.105.167587
Borg  GA Psychophysical bases of perceived exertion. Med Sci Sports Exerc 1982;14 (5) 377- 381
PubMed
Guyatt  GHSullivan  MJThompson  PJ  et al.  The 6-minute walk: a new measure of exercise capacity in patients with chronic heart failure. Can Med Assoc J 1985;132 (8) 919- 923
PubMed
Zugck  CKrüger  CDürr  S  et al.  Is the 6-minute walk test a reliable substitute for peak oxygen uptake in patients with dilated cardiomyopathy? Eur Heart J 2000;21 (7) 540- 549
PubMed
Kao  WJessup  M Exercise testing and exercise training in patients with congestive heart failure. J Heart Lung Transplant 1994;13 (4) S117- S121
PubMed
Gerardi  DALovett  LBenoit-Connors  MLReardon  JZZuWallack  RL Variables related to increased mortality following out-patient pulmonary rehabilitation. Eur Respir J 1996;9 (3) 431- 435
PubMed
Rector  TSTschumperlin  LKKubo  SH  et al.  Use of the Living With Heart Failure Questionnaire to ascertain patients' perspectives on improvement in quality of life versus risk of drug-induced death. J Card Fail 1995;1 (3) 201- 206
PubMed
McNair  DMLorr  MDroppelman  LF Manual for the Profile of Mood States.  San Diego, CA EDITS Educational and Industrial Testing Services Inc1992;
Beniamini  YRubenstein  JJZaichkowsky  LDCrim  MC Effects of high-intensity strength training on quality-of-life parameters in cardiac rehabilitation patients. Am J Cardiol 1997;80 (7) 841- 846
PubMed
Hickey  MLOwen  SVFroman  RD Instrument development: cardiac diet and exercise self-efficacy. Nurs Res 1992;41 (6) 347- 351
PubMed
Stewart  ALMills  KMKing  ACHaskell  WLGillis  DRitter  PL CHAMPS physical activity questionnaire for older adults: outcomes for interventions. Med Sci Sports Exerc 2001;33 (7) 1126- 1141
PubMed
Woo  GWPetersen-Stejskal  SJohnson  JWConti  JBAranda  JA  JrCurtis  AB Ventricular reverse remodeling and 6-month outcomes in patients receiving cardiac resynchronization therapy: analysis of the MIRACLE study. J Interv Card Electrophysiol 2005;12 (2) 107- 113
Charlson  MEPompei  PAles  KLMacKenzie  CR A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis 1987;40 (5) 373- 383
Yeh  GYWang  CWayne  PMPhillips  R Tai chi exercise for patients with cardiovascular conditions and risk factors: a systematic review. J Cardiopulm Rehabil Prev 2009;29 (3) 152- 160
PubMed
Abraham  WTFisher  WGSmith  AL  et al. MIRACLE Study Group, Cardiac resynchronization in chronic heart failure. N Engl J Med 2002;346 (24) 1845- 1853
PubMed
Wang  CSchmid  CHHibberd  PL  et al.  Tai chi is effective in treating knee osteoarthritis: a randomized controlled trial. Arthritis Rheum 2009;61 (11) 1545- 1553
PubMed
Wang  C Tai chi improves pain and functional status in adults with rheumatoid arthritis: results of a pilot single-blinded randomized controlled trial. Med Sport Sci 2008;52218- 229
PubMed
Wayne  PMScarborough  DMKrebs  DE  et al.  Tai chi for vestibulopathic balance dysfunction: a case study. Altern Ther Health Med 2005;11 (2) 60- 66
PubMed

Correspondence

CME


You need to register in order to view this quiz.
Submit a Comment

Multimedia

Some tools below are only available to our subscribers or users with an online account.

Related Content

Customize your page view by dragging & repositioning the boxes below.

See Also...
Articles Related By Topic
Related Collections
PubMed Articles
JAMAevidence.com

Users' Guides to the Medical Literature
Table 9.2-2 Refuted Evidence From Studies of Physiologic or Surrogate Endpoints

The Rational Clinical Examination
Evidence Summary and Review 1