The Effect of Whole Body Vibration After ACLR

The Effect of Whole Body Vibration on Dynamic Knee Stability in Patients After Anterior Cruciate Ligament Reconstruction

Status

UNKNOWN

Phases

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT05254054

Enrollment

Registered

2022-02-24

Start date

2021-01-01

Completion date

2025-12-01

Last updated

2023-08-30

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

ACL Injury

Keywords

ACL, dynamic knee stability, whole body vibration

Brief summary

This is a randomised clinical trial to detect the effect of an 8-week whole body vibration training on muscle function and dynamic knee function during single leg squat and single leg hop in patients after anterior cruciate ligament reconstruction

Detailed description

In Hong Kong, over 3000 cases of ACL reconstruction are operated annually to restore knee stability. Despite recovery of knee passive laxity and muscle strength, dynamic knee stability is often not restored. The whole body vibration has been found to improve muscle strength, proprioception and balance after ACL reconstruction. This project will investigate the effect of whole body vibration on muscle elasticity, muscle coordination and landing knee biomechanics. It may provide useful evidence to the application of whole body vibration in improving dynamic knee stability, which will lead to a significant improvement in healthcare management for ACL patients . The current study serves to provide a clinical guideline for post-ACL reconstruction rehabilitation.

Interventions

OTHERwhole body vibration

The whole body vibration is used when vibrations (mechanical oscillations) of a certain frequency are transferred to the human body. Humans are exposed to vibration through a contact surface that is in a mechanical vibrating state. It has been considered as an alternative and safe method for neuromuscular training and may be incorporated into current neuromuscular rehabilitation programs so as to enhance muscle recovery

OTHERConventional exercise training

A set of conventional exercises designed for ACL rehabilitation

Study design

Allocation

RANDOMIZED

Intervention model

PARALLEL

Primary purpose

SUPPORTIVE_CARE

Masking

NONE

Intervention model description

This is a randomized control trial. Participants will be randomly allocated into either intervention group(vibration training+ conventional rehabilitation program) or control group(conventional rehabilitation program).

Eligibility

Sex/Gender

ALL

Age

18 Years to 50 Years

Healthy volunteers

Inclusion criteria

1. Aged 18-50; 2. Physically active before injury with Tegner score more than 6 (recreational/professional sport level); 3. Scheduled for ACLR because of sport injury; 4. Be able to walk with a pair of elbow crutches independently at 1 month after ACLR.

Exclusion criteria

1. Concomitant posterior cruciate ligament or lateral collateral ligament injury in the same knee; 2. Injury to the contralateral side; 3. Medical problems that are contradictory to WBV; 4. Prior experience of WBV to avoid any training or memory effect; 5. Women with pregnancy.

Design outcomes

Primary

Measure	Time frame	Description
Knee extension torque	immediately after intervention, three month after intervention	Peak knee extension torque will be evaluated by a synchronized force plate during single leg hop landing.
knee internal rotation angle	immediately after intervention, three month after intervention	Peak value of knee internal rotation will be assessed by the skin marker-based motion analysis system (Vicon MX, Oxford, UK) during single leg squat and single leg hop landing.
Vertical ground reaction force	immediately after intervention, three month after intervention	Peak vertical ground reaction force will be evaluated by a synchronized force plate during single leg hop landing.
Knee valgus torque	immediately after intervention, three month after intervention	Peak knee valgus torque will be evaluated by a synchronized force plate during single leg hop landing.
knee flexion angle	immediately after intervention, three month after intervention	Peak value of knee flexion will be assessed by the skin marker-based motion analysis system (Vicon MX, Oxford, UK) during single leg squat and single leg hop landing.
knee valgus angle	immediately after intervention, three month after intervention	Peak value of knee valgus will be assessed by the skin marker-based motion analysis system (Vicon MX, Oxford, UK) during single leg squat and single leg hop landing.

Secondary

Measure	Time frame	Description
muscle elasticity	immediately after intervention, three month after intervention	Shear elastic modulus of vastus medialis, vastus lateralis, semimembranosus and biceps femoris will be assessed by shear wave elastography ultrasound.
muscle activation	immediately after intervention, three month after intervention	Muscle activity level of vastus lateralis, vastus medialis, biceps femoris and semitendinosus will be assessed by electromyography
muscle strength	immediately after intervention, three month after intervention	Isometric muscle strength of quadriceps and hamstring will be tested using an hand-held dynamometer. The isokinetic muscle strength of quadriceps and hamstring will be tested at 60°/s and 180°/s by the isokinetic dynamometer

Countries

Hong Kong

Contacts

Primary ContactXin He, PhD

xinhe@cuhk.edu.hk68102694

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026