Trials / Completed

CompletedNCT05363683

Optimizing Movement After Anterior Cruciate Ligament Injury

Status: Completed
Phase: N/A
Study type: Interventional
Enrollment: 34 (actual)

Sponsor: University of Nebraska · Academic / Other
Sex: All
Age: 13 Years – 35 Years
Healthy volunteers: Not accepted

Summary

Fifty percent of teenagers and young adults who suffer an anterior cruciate ligament (ACL) injury develop knee osteoarthritis (OA) within 15 years. The resulting pain, reduced quality-of-life, and increased risk for co-morbidity lead to substantial healthcare costs, inability to fulfill work and personal responsibilities, and reduced long-term health. Degeneration in articular cartilage, connective tissue that covers the ends of bones in the knee, is the hallmark of early OA development after knee injury. This deterioration can be measured by an imaging biomarker for OA development on quantitative magnetic resonance imaging (MRI). Harmful increases in MRI markers of the knee's articular cartilage occur within months of ACL injury and indicate preventative interventions should begin soon after injury. However, evidence-based interventions to prevent OA do not exist. This project will challenge the traditional OA paradigm that too much joint loading (e.g. "wear and tear") causes cartilage breakdown. A multi-disciplinary team has developed a novel visual biofeedback paradigm using portable force plates that can increase knee loading during squats within a single session after ACL reconstruction (ACLR). This study will determine the efficacy of the visual biofeedback program initiated two weeks after ACLR by assessing movement biomechanics and MRI changes in cartilage after six months later. Successful completion of this project will establish the first rehabilitation intervention to effectively and optimally load the knee joint early after ACLR, providing the initial steps to prevent OA after ACL injury.

Detailed description

Fifty percent of teenagers and young adults who suffer an anterior cruciate ligament (ACL) injury develop radiographic knee osteoarthritis (OA) within 15 years. The resulting pain, reduced quality-of-life, and increased risk for co-morbidity lead to substantial healthcare costs, inability to fulfill work and personal responsibilities, and reduced long-term health. Degeneration in articular cartilage, connective tissue that covers the ends of bones in the knee, is the hallmark of early OA development after knee injury. This deterioration can be measured by increased T2 and T1rho relaxation time on quantitative magnetic resonance imaging (MRI), an imaging biomarker for OA development. Harmful increases in MRI markers of the knee's articular cartilage occur within months of ACL injury and indicate preventative interventions should begin soon after injury. However, evidence-based interventions to prevent OA do not exist. The investigators have shown that after ACL reconstruction (ACLR), patients exhibit asymmetric movement patterns characterized by up to 62% lower knee joint loading during walking and squatting in the injured limb at two months after ACLR. These knee joint loading patterns remain 40% lower at six months. Emerging evidence suggests knee joint unloading patterns after ACL injury may increase the risk for OA development. Currently, no studies have examined the efficacy of movement-focused interventions during the first months after ACLR, which explains the lack of evidence-based interventions that successfully increase knee loading early after ACLR. This gap presents a barrier to the long-term goal of preventing OA in young, active individuals before irreversible knee degeneration occurs. This project will challenge the traditional OA paradigm that too much joint loading (e.g. "wear and tear") causes cartilage breakdown. The multi-disciplinary team spanning rehabilitation, orthopaedics, radiology and biomechanics has developed a novel visual biofeedback paradigm using portable force plates that can increase knee loading during squats within a single session after ACLR. This data suggest movement is modifiable using visual feedback, but its efficacy beyond a single training session is unknown. This study will determine the efficacy of the visual biofeedback program initiated two weeks after ACLR by assessing movement biomechanics and MRI changes in cartilage microstructure six months later. Successful completion of this project will establish the first rehabilitation intervention to effectively and optimally load the knee joint early after ACLR, providing the initial steps in the team's work to prevent OA after ACL injury.

Conditions

Interventions

Type	Name	Description
PROCEDURE	Squat Biofeedback	The intervention group will complete bilateral squats with each limb on a separate portable force plate. They will receive real-time visual feedback on a 32-inch screen during all squats. Biofeedback conditions will be progressed from simplest (ground reaction force only) to most complex (ground reaction force plus center of pressure). This intervention will be included in additional to standard care post-operative physical therapy.
PROCEDURE	Standard Care	The intervention group will receive standard care post-operative physical therapy.

Timeline

Start date: 2021-11-11
Primary completion: 2024-06-05
Completion: 2024-06-05
First posted: 2022-05-06
Last updated: 2026-02-20
Results posted: 2025-12-12

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT05363683. Inclusion in this directory is not an endorsement.