This is the first study to test the effect of Tai Chi on pain from knee osteoarthritis in community-dwelling elders with mild cognitive impairment. If Tai Chi is effective in reducing pain, clinicians can use it routinely with this population; then elders can maintain their functional ability longer, and perhaps delay or prevent long-term care admission, and the investigators can save health care dollars.
Up to 33% of all elders and 40% of elders over age 70 experience knee osteoarthritis (OA), a leading cause of pain and disability. Further, up to 15.3% of elders age 65 have CI, and the prevalence of cognitive impairment (CI) doubles every 5 years after age 65. The prevalence of OA in elders with CI is comparable to that in elders without CI. Cognitive impairment limits elders' ability to perform daily activities, and their functional capacity declines more rapidly than in elders without CI. Having knee OA pain in addition to CI further limits elders' activities. Without proper treatment of knee OA pain, elders with CI may avoid basic daily activities, such as rising, walking, standing, and climbing stairs because these aggravate pain. By avoiding these basic activities, they gradually lose muscle strength, range of motion, and mobility, which leads to further physical deconditioning and social isolation. With aging of the baby boomers and advances in health care, the number of elders with both CI and OA will increase fourfold by 2050. Alleviating knee pain in elders with CI and knee OA could preserve their functioning, perhaps delay institutionalization, and save healthcare dollars. Since pharmacological interventions produce serious side effects and inadequately reduce pain, especially in elders with CI, adjuncts such as Tai Chi (TC) are needed. A low-impact aerobic exercise, TC involves slowly stretching the limbs and trunk and ultimately re-establishes normal mechanics of the knee joints, which reduces knee OA pain. The United States Arthritis Foundation and the American Geriatrics Society have endorsed TC to reduce knee OA pain; but no study has investigated the effect of TC on knee OA pain in elders with CI. The primary aims of this study are: 1. To test the efficacy of a modified TC program in reducing knee OA pain in community-dwelling elders with mild CI. 2. To test the efficacy of a modified TC program in improving physical function and quadriceps strength. 3. To investigate feasibility and compliance issues in conducting TC. 4. To estimate the clinical significance of TC for pain reduction in community dwelling elders with mild CI. The results of this study will help us design a full-scale RCT with a precise estimate of the sample size and dosage of TC needed for reducing knee OA pain in community-dwelling elders with mild CI.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
55
The experimental group received three sessions of Sun Tai Chi (TC) a week for 20 weeks (20-to-40 minute exercise plus a 5-minute rest per session). Sun TC includes 6 basic and 6 advanced forms designed for all ages with arthritis seeking a joint-safe exercise routine.
The attention control group participated in health education, culture related activities and other activities for a total of 20 weeks. The attention control protocol was standardized in terms of teaching content, materials and duration. The length and frequency of the activities carried out in this group closely matched those in the TC group.
University of Arkansas for Medical asciences
Little Rock, Arkansas, United States
Change from baseline in pain at Week 5
Measured by 1). the WOMAC pain subscale; 2). the Verbal Descriptor Scale (VDS); 3). Keefe observational method; and 4). Analgesic intake.
Time frame: Week 5
Change from baseline in pain at Week 9
Measured by 1). the WOMAC pain subscale; 2). the Verbal Descriptor Scale (VDS); 3). Keefe observational method; and 4). Analgesic intake.
Time frame: Week 9
Change from baseline in pain at Week 13
Measured by 1). the WOMAC pain subscale; 2). the Verbal Descriptor Scale (VDS); 3). Keefe observational method; and 4). Analgesic intake.
Time frame: Week 13
Change from baseline in pain at Week 17
Measured by 1). the WOMAC pain subscale; 2). the Verbal Descriptor Scale (VDS); 3). Keefe observational method; and 4). Analgesic intake.
Time frame: Week 17
Change from baseline in pain at Week 21
Measured by 1). the WOMAC pain subscale; 2). the Verbal Descriptor Scale (VDS); 3). Keefe observational method; and 4). Analgesic intake.
Time frame: Week 21
Physical function
Measured by 1). WOMAC Physical Function subscale; and 2). Get Up and Go (GUG)
Time frame: Week 1 (baseline), week 5, week 9, week 13, week 17 and week 21 (post-test) for a total of 6 time points
Cognitive function
Mini Mental Status Exam (MMSE)
Time frame: Week 1 (baseline), week 5, week 9, week 13, week 17 and week 21 (post-test) for a total of 6 time points
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Stiffness
WOMAC Stiffness subscale
Time frame: Week 1 (baseline), week 5, week 9, week 13, week 17 and week 21 (post-test) for a total of 6 time points
Quadriceps strength
Measured by the Sit-To-Stand (STS)
Time frame: Week 1 (baseline), week 5, week 9, week 13, week 17 and week 21 (post-test) for a total of 6 time points
Pain level (each session)
Measured by the Verbal Descriptor Scale (VDS)
Time frame: Participants will be followed for the duration of intervention period (20 weeks)