Benefits of Aquatic Therapy After Hip or Knee ReplacementThis is the first study reported to look at the benefit of aquatic therapy in the early days after joint replacement. Physical therapists in Australia randomly placed patients getting a hip or knee replacement into one of three different treatment groups. The goal was to find out what kind of treatment is best in the early days after orthopedic surgery.
With the recent effort to reduce the length of hospital stays, physical therapists are exploring the most effective ways to treat orthopedic patients. The standard rehab program after hip or knee joint replacement includes a mix of exercises to improve circulation and to prevent blood clots and other complications. Other goals include improving motion, strength, and function (especially walking).
In today's evidence-based medicine, the question has been raised: what is best practice during the acute postoperative phase for hip and knee replacements? What is the role (if any) of aquatic therapy? Can the hydrostatic forces and warm and gravity-free environment make a difference? Are there additional benefits of aquatic therapy that cannot be obtained through the standard rehab protocol? The authors of this study asked and answered all of those questions.
Aquatic (pool) therapy is defined as physical therapy that is performed in the water. There are good reasons to consider using aquatic therapy after joint replacement. Aquatic therapy uses the resistance of water instead of weights. With the reduced load provided by the buoyancy of the water, certain exercises (e.g., squats, step ups, walking without a cane or walker) can be started sooner in water than on land. Circulation is also improved leading to faster tissue healing and reduced swelling.
Everyone in the study either had a hip or knee replacement. They each received the standard postoperative hospital care by a physical therapist for the first three days after the operation. After that, the patients were randomly assigned to one of three groups.
Group one continued with the standard care. This included circulation and deep breathing exercises, transfer practice, gait (walking) training, and practice going up and down stairs. Stretching and strengthening exercises were also done daily. Group two received a nonspecific water therapy session each day they were in the hospital. Group three had one standard physical therapy treatment each day and attended aquatic therapy everyday while in the hospital.
The aquatic physical therapy was performed at a slow (50 to 58 beats per minute) and fast pace (80 to 88 beats per minute) using a metronome to tick out the speed. The idea of using speed as a tool to enhance movement in water is part of the aquatic therapy. The program included exercises to improve range-of-motion, muscle strengthen, trunk stability, and reciprocal motion (arms and legs swinging rhythmically and repetitively while walking).
Measures used to compare the results of different treatment approaches included strength of the hip abductor muscles, walking speed, and patient self-reported function (disability). Patients in all three groups were tested at the end of 14 days for short-term effects and again at the end of six months. Retesting at the six month time period allowed them to see if the short-term improvements held up over time.
Three tests commonly used by physical therapists to measure results included a handheld dynamometer for muscle testing, the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC), and the timed 10-meter walking test. The WOMAC is a survey patients fill out answering questions about pain, function, and stiffness. Muscles tested using the dynamometer included the hamstrings, quadriceps, and gluteus medius.
In order to be considered clinically significant, patients in one group had to have more than a 15 per cent change from before to after treatment. The only reported difference among groups in this study was hip abductor muscle strength. Patients in the specific aquatic therapy program had the greatest improvement in strength. Hip abductor strength is important for trunk and hip stability and normal a gait (walking) pattern.
When all other variables were compared among the groups, the aquatic group had the best short-term improvements, but they didn't reach the 15 per cent difference. This means they were important measures but not always considered statistically significant.
At the end of six months, there was no difference in outcomes from one group to the next. There were overall trends that seemed to support the idea that aquatic therapy was slightly more beneficial than either land-based or nonspecific water-based exercises.
The authors conclude that for physical therapists who have access to an appropriate pool at their hospital, an aquatic program for total hip and knee is safe and effective. Improved postoperative hip strength has been shown in other studies to be a key factor in functional recovery after hip or knee replacement.
Improved early funtional recovery is more likely with a specific aquatic program (even over just water exercises). There's more to this success than just warm, buoyant water. Further studies are needed to find out why this is so and which execises (type and amount) are best during the early recovery phase.
Ann E. Rahmann, BPhty, et al. A Specific Inpatient Aquatic Physiotherapy Program Improves Strength After Total Hip or Knee Replacement Surgery: A Randomized Controlled Trial. In Archives of Physical Medicine and Rehabilitation. May 2009. Vol. 90. No. 5. Pp. 745-755.
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