Clinical Trials Logo

Clinical Trial Summary

This study investigates the effects of plyometric training with blood flow restriction on muscular strength, quadriceps thickness and knee joint function in patients with muscle weakness and atrophy (quadriceps muscle and hamstring muscle) after anterior cruciate ligament reconstruction. Persons who completed a 12-week routine rehabilitation program after anterior cruciate ligament reconstruction will be included in the study. In the study group, plyometric exercises will be performed with blood flow restriction in the operated side for 8 weeks. In the control group, the same plyometric exercises will be performed without any application.


Clinical Trial Description

Anterior cruciate ligament (ACL) rupture is one of the most common sports injuries. Surgical procedure is usually performed after injury. After ACL surgery, patients experience problems such as pain, impaired knee function, and especially quadriceps muscle weakness and atrophy. Quadriceps atrophy has been shown to persist for years despite rehabilitation programs. Therefore, rehabilitation programs after ACL reconstruction play an important role in ensuring return to sports and reducing postoperative complications. In general, ACL rehabilitation can be divided into early and late periods. In the early period, while focusing on the solution of the primary problems related to the knee (pain, edema, joint movement limitation, quadriceps muscle weakness, and antalgic gait), the focus is on the patient's preparation for returning to sports activities. Running, jumping and agility training are the exercise approaches of late phase rehabilitation. These exercises include pliometric activities that trigger the stretch-shortening cycle of the lower extremity extensor muscles. Pliometric exercises after anterior cruciate ligament reconstruction may improve lower extremity muscle strength and knee function and increase the rate of return to sports, but there is not enough study in this area. Under normal conditions, 6-12 repetitive weight-lifting exercises at a density of at least 65% of a maximum repetition are recommended to increase strength in a muscle and achieve hypertrophy. However, it takes approximately 4-6 months for the ligament to mature and bear weight after surgery. For this reason, high intensity strengthening training is not used in the early period of rehabilitation to protect the graft that is recovering after surgery and the training is started from low intensity and increased gradually. Recent studies suggest that muscle hypertrophy occurs with low-intensity exercises (20-30% of a maximum repetition) with blood flow restriction, also known as KAATSU training or occlusion training. Because blood flow restriction training allows the benefits of high intensity training to be obtained at a much lower intensity. In the literature, the effectiveness of many different exercise programs after ACL reconstruction was investigated. However, no study investigating the effect of blood flow restriction plyometric exercise training on ACL rehabilitation on muscle strength and function was found. This study will be conducted to investigate the contribution of low-density plyometric training with blood flow restriction to atrophy, muscle strength, function and return to sports. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04284748
Study type Interventional
Source Hacettepe University
Contact
Status Completed
Phase N/A
Start date December 10, 2018
Completion date June 15, 2020

See also
  Status Clinical Trial Phase
Recruiting NCT05543980 - Leg Heat Therapy in Elderly Individuals Phase 2
Enrolling by invitation NCT03297632 - Improving Muscle Strength, Mass and Physical Function in Older Adults N/A
Completed NCT04207359 - Effects of Creatine Supplementation in Breast Cancer Survivors N/A
Completed NCT06216015 - Exercise Training and Kidney Transplantation N/A
Completed NCT04076982 - Effect of Supplementary Dietary Protein (21g Per Day) on Lean Mass and Strength in Sedentary, Adult Vegetarians N/A
Not yet recruiting NCT03662555 - Effect of Neuromuscular Electrical Stimulation Combined With Blood Flow Restriction on Muscular and Cardiovascular Function N/A
Completed NCT02530723 - Functional Changes and Power Training in Older Women. N/A
Completed NCT01743495 - CAPABLE for Frail Dually Eligible Older Adults N/A
Completed NCT01704976 - SR-WBV Training for Frail Elderly in the Skilling up Stage N/A
Completed NCT00183040 - HORMA: Hormonal Regulators of Muscle and Metabolism in Aging Phase 2
Enrolling by invitation NCT06432062 - Investigation the Effect of Rectus Abdominis and Erector Spinae Muscle Fatigue on the Viscoelastic Properties of Thoracolumbal Fascia
Recruiting NCT05073224 - Muscle Function After Childbirth N/A
Completed NCT04956705 - Vitamin D and Calcium Supplementation at Danish Nursing Homes N/A
Recruiting NCT03810768 - Metabolomics Study on Postoperative Intensive Care Acquired Muscle Weakness
Completed NCT00060970 - Evaluating Muscle Function After Ankle Surgery N/A
Completed NCT04546048 - The Early Strength Training Program in Post-transplant Liver Cases N/A
Completed NCT03628365 - Can Beta-Hydroxy-beta-Methylbutyrate Supplementation Counteract Muscle Catabolism in Critically Ill Patients? N/A
Completed NCT05056298 - Effect of Insole Added to Exercise in Patients With Bilateral Flexible Flatfoot N/A
Completed NCT02739464 - Effect of In-Patient Exercise Training on Length of Hospitalization in Burned Patients N/A
Completed NCT05497960 - Vivo Prediabetes Study: Online, Live, and Interactive Strength Training for Older Adults With Prediabetes N/A