The purpose of our study is to evaluate the differences in functional activities and proprioception after surgery in subjects who underwent hip prosthesis implant with capsulotomy or capsulectomy.
Concerning hip arthroplasty surgery, in patients affected by coxarthrosis, there are two different techniques: one is capsulectomy and the second one is capsulotomy with repairing the capsule at the end of the procedure. Both preserving and excising the capsule are accepted methods and the choice whether repairing the capsule or not is up to the surgeon, since studies have not yet demonstrated the superiority of one of the two techniques. Articular capsule has a physiological role in joint stability and proprioception. The presence of proprioceptive nerve endings in hip joint capsule has been observed both in healthy patients and in those affected by coxarthrosis. If capsulectomy is performed during primary hip arthroplasty, the pseudocapsule that is formed in place of the native capsule will not have any active neurophysiological role in the hip. For this reason, investigators compare the two surgical techniques with the purpose of highlighting, if existing, the superiority of one technique on the other in terms of better functional recovery and proprioceptive sensibility.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
94
Surgical intervention in which the surgeon will perform anterior capsulectomy during total hip arthroplasty.
Surgical intervention in which the surgeon will perform anterior capsulotomy during total hip arthroplasty. Surgeon will repair the joint capsule.
San Raffaele Hospital
Milan, Italy
Change in Hip disability and Osteoarthritis Outcome Score (HOOS)
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Change in Hip disability and Osteoarthritis Outcome Score (HOOS)
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Change in Six minutes walk test distance
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Change in Six minutes walk test distance
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Change in 30 seconds chair stand test
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Change in 30 seconds chair stand test
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Hip Proprioception Evaluation Flexion - Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip flexion repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Hip Proprioception Evaluation Abduction - Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip abduction repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
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Hip Proprioception Evaluation External Rotation- Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip external rotation repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Hip Proprioception Evaluation Flexion- Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip flexion repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Hip Proprioception Evaluation Abduction - Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip abduction repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Hip Proprioception Evaluation External Rotation- Measure of the absolute difference between the actual and the subject-replicated target positions.
Measures of hip external rotation repositioning error (active and passive repositioning)
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Active hip Range Of Motion Flexion- degree
Measures of hip flexion maximal active Range of Motion
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Active hip Range Of Motion Abduction- degree
Measures of hip abduction maximal active Range of Motion
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Active hip Range Of Motion External Rotation- degree
Measures of hip external rotation maximal active Range of Motion
Time frame: Before surgery (T0), 50 days (plus or minus 3 days) after surgery (T1)
Active hip Range Of Motion Flexion- degree
Measures of hip flexion maximal active Range of Motion
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Active hip Range Of Motion Abduction- degree
Measures of hip abduction maximal active Range of Motion
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Active hip Range Of Motion External Rotation- degree
Measures of hip external rotation maximal active Range of Motion
Time frame: Before surgery (T0), 90 days (plus or minus 3 days) after surgery (T2)
Surgical time- minutes
This will be measured from the time of incision to the time the dressing is applied
Time frame: The day of the surgical procedure
Percent hemoglobin drop
Percent hemoglobin drop will be measured by comparing the preoperative hemoglobin to the inpatient nadir hemoglobin.
Time frame: Up to 2 weeks after surgery (during inpatient stay)