This trial is active, not recruiting.

Condition knee osteoarthritis
Treatment gait retraining
Sponsor University of California, San Francisco
Start date September 2013
End date December 2016
Trial size 30 participants
Trial identifier NCT01919736, CLOC


The objective of this project is to determine the effects of gait-retraining on articular cartilage composition, gait mechanics, pain and function in persons with mild to moderate knee osteoarthritis (OA).

United States No locations recruiting
Other countries No locations recruiting

Study Design

Allocation randomized
Endpoint classification efficacy study
Intervention model parallel assignment
Masking single blind (subject)
Primary purpose prevention
(Active Comparator)
a moderate 7 degree toe-in modification
gait retraining
(Active Comparator)
A 2 degree toe-in gait retraining
gait retraining

Primary Outcomes

Effects of moderate versus mild gait retraining on pain, function,and kinematics and kinetics during gait and stair climing in persons with symptomatic knee OA
time frame: up to 6 months

Eligibility Criteria

Male or female participants from 35 years up to 80 years old.

Inclusion Criteria: - Men and women - At least 35 years of age - Mild OA patients with arthritic knee symptoms and KL score of 1-2 - Severe OA patients with arthritic knee symptoms and KL score of 3-4 - Knee symptoms in OA patients is defined as pain, aching, or stiffness on most days of a month during the past year or use of medication for treatment of knee pain on most days of a month during the past year - self reported knee pain (defined as medial compartment knee pain at least 1 day per week during each of the 6 weeks prior to participation) and at least 3 of the following 6 clinical indicators: Age>50 years; morning stiffness<30 minutes duration; crepitus on active motion; tenderness of the bony margins of the knee joint; bony enlargement at the knee; and lack of palpable warmth of the synovium Exclusion Criteria: - current use of investigational drug - conditions other than OA which limit lower extremity function and mobility and/or would confound the evaluation of function (e.g., clinically significant spinal disc degeneration, painful or dysfunctional feet, peripheral vascular disease, lumbar radiculopathy, trochanteric bursitis, hip pain, lumbar pain) - Patients with metallic fragments in the eyes, vascular clips, pacemakers, and other contraindications to MRI - History of joint replacement, intra-articular fracture, osteotomy, arthroplasty or meniscectomy of the signal knee - History of other disease that may involve the study joint including systemic inflammatory disease, crystalline disease, knee infection of the signal knee, avascular necrosis, Paget's disease or tumors - Self reported heart condition that limits any daily physical activity - Patients who are pregnant

Additional Information

Official title Loaded and Unloaded Magnetic Resonance (MR) Imaging of Meniscus-Cartilage-Trabecular Bone in Osteoarthritis
Principal investigator Sharmila Majumdar, PhD
Description Variables of gait mechanics during walking have been linked to the onset and progression of knee osteoarthritis (OA). The knee adduction moment is one key variable that has been identified as an important indicator of medial compartment loads across the knee joint. Use of gait-retraining strategies to alter gait movement patterns and lower the knee adduction movement in persons with knee OA is a new and promising direction for the potential intervention in a population in which few strategies have worked successfully. Factors that affect cartilage composition are crucial to understanding the disease mechanisms in knee OA. A multi-scale approach towards understanding the knee OA disease process by evaluating tissue compositional changes, joint contact mechanics, whole-body neuromuscular dynamics, and functional performance. The results will be the first to show the association between cartilage composition and daily function (performance and patterns) which are implicated in OA development and progression. With the addition of comprehensive muscle testing (cross sectional area/volume assessment using MR, strength testing, muscle activation and co-contraction patterns during daily activities), it will be possible to study the interaction between all major tissues around the knee.
Trial information was received from ClinicalTrials.gov and was last updated in July 2016.
Information provided to ClinicalTrials.gov by University of California, San Francisco.