Clinical and Economic Comparison of Robot Assisted Versus Manual Knee Replacement
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|ClinicalTrials.gov Identifier: NCT01705886|
Recruitment Status : Active, not recruiting
First Posted : October 12, 2012
Last Update Posted : July 17, 2019
The purpose of this study is to document and compare the surgical and after surgery costs, recovery time, and outcomes of two procedure types:
- Robotic assisted surgery replacing one compartment of the knee
- Manual (robot is not used) surgery replacing all three compartments of the knee (total knee replacement)
The hypothesis is that robot assisted partial knee replacement is cost effective and provides clinical outcomes that are equivalent to a manual total knee replacement.
|Condition or disease||Intervention/treatment|
|Knee Arthroplasty||Procedure: Total Knee Arthroplasty Procedure: MAKO® Robot Assisted Medial Knee Arthroplasty Device: RESTORIS Multicompartmental Knee System Device: Depuy Knee Replacement System Device: Stryker® Knee Replacement System|
Background and Significance:
The primary indications for joint replacement surgery include severe lower extremity pain that prevents individuals from performing normal daily activities. The level of pain experienced by these patients cannot be managed successfully with oral medications, physical therapy, or joint injections of steroids or hyaluronic acid. The source of the pain most commonly is a result of arthritic changes in the joint; the arthritis may be due to osteoarthritis, rheumatoid arthritis, or traumatic arthritis. Patients who are appropriate candidates for partial joint replacement surgery also may experience joint stiffness that interferes with their normal daily activities. In addition, there usually is radiographic evidence of changes in the joint caused by the arthritic process. Joint damage is evaluated radiographically in order to classify the severity of the joint disease. Partial joint replacement surgery is performed to replace the diseased parts of the joint with prosthesis. There are a variety of options that surgeons and patients can choose for their joint replacement surgery. There are many different joint replacement component systems manufactured by several different companies; some systems are recommended for particular types of patients while others can be used in a greater number of patients. Recently, new techniques have been introduced that are classified as minimally invasive because they require smaller surgical incisions to implant standard joint prostheses. Patients who are younger, thinner, and in better overall health are usually the best surgical candidates for minimally invasive procedures.
Osteoarthritis affects 40 million Americans and 15 million people in the United States suffer from degenerative arthritis of the knee. Unicondylar knee arthroplasty (UKA) was introduced as a treatment option for degenerative arthritis of the knee in the early 1970's. The procedure initially yielded variable results and this unpredictability resulted in broadly low levels of usage. Recent improvements in the surgical techniques and technology used for UKA have increased the effectiveness of this surgery. As the average age of the United States population increases, this surgical procedure will become even more common. It is estimated by the Millennium Research Group that there will be 55,100 unicondylar knee procedures in 2010 and the compound annual growth rate from 2009 to 2014 will be 8.3%.
UKA knee arthroplasty can be viewed as an attractive alternative to total knee arthroplasty (TKA) assuming the patient's osteoarthritis has remained isolated in a single compartment or two compartments. UKA knee arthroplasty are generally less invasive procedures than TKA. Since the procedure is less invasive there is usually less blood loss; more cartilage, tissue, and bone is sparred, which results in shorter recovery times than TKA. This procedure is attractive to adults who are interested in remaining active pain-free lifestyles as they age.
The cost-effectiveness of healthcare interventions, especially new technology, is becoming essential. Comparing the procedural costs of robotic-assisted surgery and the outcomes of the patients versus TKA, the gold standard, will help substantiate whether robotic-assisted surgery from an economic viewpoint is a cost-effective treatment. In addition the rehabilitation after knee replacement surgery is critical to achieving proper functional outcomes. Information pertaining to knee replacement post discharge costs has been limited. Due to the lack of studies and the continued growth in the number of knee arthroplasty surgeries it is imperative to track post discharge costs of all variables. We will be documenting and comparing the procedural and postoperative costs, recovery time, and outcomes of three procedure types in robotic assisted unicompartmental knee arthroplasty, robotic assisted bicompartmental knee arthroplasty and manual total knee arthroplasty.
|Study Type :||Observational|
|Actual Enrollment :||61 participants|
|Official Title:||Clinical and Economic Comparison of Robotic Versus Manual Knee Arthroplasty|
|Study Start Date :||October 2012|
|Actual Primary Completion Date :||January 2018|
|Estimated Study Completion Date :||January 2020|
Patients undergoing knee replacement surgery. This may be a Total Knee Arthroplasty or MAKO® Robot Assisted Medial Knee Arthroplasty.
The MAKO® Robot Assisted surgeries use the RESTORIS Multicompartmental Knee System.
The total knee arthroplasty uses the Depuy Knee Replacement System or the Stryker® Knee Replacement System.
Procedure: Total Knee Arthroplasty
Patients undergoing manual (no robot used) surgery to replace of all 3 compartments of the knee
Procedure: MAKO® Robot Assisted Medial Knee Arthroplasty
Patients undergoing a MAKO® robot assisted surgery to replace the medial compartment of the knee
Other Name: unilateral knee arthroplasty (UKA)
Device: RESTORIS Multicompartmental Knee System
The RESTORIS Multicompartmental Knee (MCK) System components are intended for single or multicompartmental knee replacement used in conjunction with the MAKO® Robotic Arm Interactive Orthopedic System (RIO®). The components can be used for medial compartment, lateral compartment, patellofemoral compartment, or bicompartmental (medial and patellofemoral compartments) knee replacement. The device is intended to be used with bone cement.
Device: Depuy Knee Replacement System
The Depuy Knee Replacement System components are intended for use in total knee replacement. These components are intended for implantation with bone cement.
Device: Stryker® Knee Replacement System
The Stryker® Knee Replacement System components are intended for use in total knee replacement. These components are intended for implantation with bone cement.
- Cost per case at 1 year [ Time Frame: 1 year ]Cost per case for 1 year. The inpatient costs, analgesic use, physical therapy, durable medical equipment, and postoperative visits will be used to calculate the cost at 1 year.
- American Knee Society Knee Score [ Time Frame: 1-2 weeks prior to surgery, 1-2 weeks after surgery, 4-6 weeks after surgery, 10-12 weeks after surgery, 6 months after surgery, 1 year after surgery ]The American Knee Society Score is an assessment and questionnaire that provides a rating of the pain, function, range of motion, and knee joint stability. It is subdivided into a knee score that rates only the knee joint itself and a functional score that rates the patient's ability to walk and climb stairs.
- Reduced WOMAC [ Time Frame: 1-2 weeks prior to surgery, 1-2 weeks after surgery, 4-6 weeks after surgery, 10-12 weeks after surgery, 6 months after surgery, 1 year after surgery ]The Reduced WOMAC is a truncated version of the Western Ontario and McMaster's University Osteoarthritis Index. The questionnaire is designed to assess pain, disability and joint stiffness in the osteoarthritis patient.
- Knee injury and Osteoarthritis Outcome Score [ Time Frame: 1-2 weeks prior to surgery, 1-2 weeks after surgery, 4-6 weeks after surgery, 10-12 weeks after surgery, 6 months after surgery, 1 year after surgery ]The KOOS or Knee injury and Osteoarthritis Outcome Score are patient completed questionnaires which assess the patient's opinion regarding their knee and its associated osteoarthritis.
- EQ-5D [ Time Frame: 1-2 weeks prior to surgery, 1-2 weeks after surgery, 4-6 weeks after surgery, 10-12 weeks after surgery, 6 months after surgery, 1 year after surgery ]The EQ-5D is a standardized instrument for use as a measure of health outcome.
- Forgotten Joint Score [ Time Frame: 1-2 weeks prior to surgery, 1-2 weeks after surgery, 4-6 weeks after surgery, 10-12 weeks after surgery, 6 months after surgery, 1 year after surgery ]The Forgotten Joint Score is a 12-item questionnaire completed by the patient to determine how aware they are of their joint in their everyday life.
- Length of Stay [ Time Frame: At inpatient discharge which has an expected average of 2 days after surgery ]Number of days patient stayed in hospital after surgery
- Time to physical therapy discharge [ Time Frame: At discharge from physical therapy which has an expected average of 6 weeks after surgery ]
Days after surgery to meet physical therapy discharge criteria of
- Range of motion 5 to 115 degrees
- Strength 4/5 for flexion and extension expressed as a percent of maximal isometric contraction from pre-operative assessment and determined with a dynamometer
- Gait with minimal limp without an assistive device for a distance of 250 feet
- Able to ascend/ descend a flight of stairs with step over gait with good control (and with use of handrail)
- Timed Up and Go [ Time Frame: 1-2 weeks prior to surgery, 6 weeks after surgery, 3 months after surgery ]Timed up and Go (TUG) Test: Participants are instructed to stand up from a seated position from a standard chair, walk 3 m around a cone and then return to the chair and resume a seated position. Pace is self-selected. The time to complete the test is recorded.
- 6 Minute Walk Test (6MWT) [ Time Frame: 1-2 weeks prior to surgery, 6 weeks after surgery, 3 months after surgery ]Participants are instructed to cover as much distance walking in 6 minutes and can stop and rest if necessary. The course is 30 meters in length, marked at 1 meter intervals with cones marking the turn around point. Distance measured is rounded up to the nearest meter and recorded.
- Stair Ascend/Descend Test [ Time Frame: 1-2 weeks prior to surgery, 6 weeks after surgery, 3 months after surgery ]Participants are asked to ascend and descend 11 steps using a hand rail if necessary. Stair height is 17.8 cm (7"). Pace is self selected. The time to ascend/ descend 1 flight of stairs is recorded.
- Return to Driving Time [ Time Frame: 6 weeks after surgery ]Number of days from surgery until patient returned to driving. In addition if the knee replacement procedure was a performed on the left leg or right leg will be documented because this could factor into time it takes to return to driving.
- Return to Work Time [ Time Frame: 6 weeks after surgery ]The number of days from surgery to return to work.
To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT01705886
|United States, Washington|
|Rebound Orthopedics and Neurosurgery|
|Vancouver, Washington, United States, 98686|
|Principal Investigator:||Todd Borus, MD||Northwest Surgical Specialists / Rebound Orthopedics and Neurosurgery|
|Principal Investigator:||Donald Roberts, MD||Northwest Surgical Specialists / Rebound Orthopedics and Neurosurgery|