The Effects of Adding Modified Visual Feedback Training in Physical Therapy Protocol Following Anterior Cruciate Ligament Reconstruction
Overview
- Phase
- N/A
- Intervention
- Not specified
- Conditions
- Anterior Cruciate Ligament Reconstruction
- Sponsor
- China Medical University Hospital
- Enrollment
- 40
- Locations
- 1
- Primary Endpoint
- Position sense (Proprioception) of the knee joints
- Status
- Recruiting
- Last Updated
- 3 years ago
Overview
Brief Summary
The current treatment for the ACL-injured patients usually emphasize on the movement quality through neuromuscular training. The purpose of this study is to (1) design a modified visual feedback training program and (2) investigate the effects of the modified visual feedback training on the movement control in the ACL-reconstructed (ACL-R) patients. Forty unilateral ACL-R male patients will be enrolled voluntarily, who will be randomly allocated into the traditional neuromuscular training (NMT) or the modified visual feedback (MVF) group. The investigators hypothesize that this MVF training program will have better potential to improve their post-injury movement dysfunction.
Detailed Description
Anterior cruciate ligament (ACL) rupture is a common sport-related injury that needs surgical reconstruction to restore a better knee function. This ligament accommodates plenty of crucial sensory nerve endings providing proprioceptive information to central nerve system (CNS) for the knee movement control. Recent studies have found that the patients will increase utilization of the visual processing for movement control, concurrent with the depression of the proprioceptive information after the ACL injury. In addition, the loss of proprioception information will result in motor impairment when disrupting vision during more demanding physical activities, such as pivoting, accelerating, decelerating, and landing maneuver. It is obvious that this motor control deficit may increase the re-injury risk during multitasking situations common in functional movements or sports participation. The current treatment for the ACL-injured patients usually emphasize on the movement quality through neuromuscular training, but seldom adding the alteration of the sensory processing. Some patients still have been forced to lower their activity level or ended their career in sports due to the remained motor control problems after rehabilitation. Therefore, the purpose of this study is to (1) design a modified visual feedback training program and (2) investigate the effects of the modified visual feedback training on the movement control in the ACL-reconstructed (ACL-R) patients. Forty unilateral ACL-R male patients will be enrolled voluntarily from local hospitals to participate in this study. Each participant will be randomly allocated into the traditional neuromuscular training (NMT) or the modified visual feedback (MVF) group. The training program will start at the forth week after the ACL reconstruction and last for eight weeks. The hypothesis of this study is that the MVF training program will have better potential to improve their post-injury movement dysfunction and thus may decrease the re-injury risk in ever-changing environment. Therefore, it may provide assistance for the patients to build both physical and neurocognitive capabilities for returning to sport.
Investigators
Hsiu-Chen Lin
Associate Professor
China Medical University Hospital
Eligibility Criteria
Inclusion Criteria
- •unilateral ACL injury male patients aged from 20\~45 years old
- •arthroscopic assisted ACL reconstruction with autologous patellar tendon or hamstring tendon graft
- •no other knee injury
- •no limited range of motion at the hip or ankle joints
Exclusion Criteria
- •injuries in the other knee joint
- •previous injuries in the ipsilateral hip or ankle joints
- •neurological disease that affects his motor function
Outcomes
Primary Outcomes
Position sense (Proprioception) of the knee joints
Time Frame: Change from post-operative 4 weeks to post-operative 13 weeks
It will be performed on a isokinetic machine (Biodex System 3) to obtain the error angles (degrees) in the test of the joint position reproduction (JPR)
Maximal muscle strength
Time Frame: Change from post-operative 4 weeks to post-operative 13 weeks
Maximal isometric strength (in torque, Nm) of knee extensor \& flexor will be tested on the isokinetic machine (Biodex System 3)
Balance Test
Time Frame: Change from post-operative 4 weeks to post-operative 13 weeks
Y Balance Test (YBT) - The test requires the participant to balance on one leg while reaching as far as possible with the other leg in three separate directions: anterior, posterolateral, and posteromedial. The composite score (in percentage, %) of summarized reaching distances, each divided by leg length first, in three directions will be recorded.
Movement sense (Proprioception) of the knee joints
Time Frame: Change from post-operative 4 weeks to post-operative 13 weeks
It will be performed on a isokinetic machine (Biodex System 3) to obtain the angles (in degrees) in the test of threshold to detection of passive motion (TTDPM)
Secondary Outcomes
- Functional outcome questionnaire(Change from post-operative 4 weeks to post-operative 13 weeks)