Trials / Completed
CompletedNCT07143942
Effects of Kinesio Taping on Gait Biomechanics in Patellar Tendinopathy Patients
- Status
- Completed
- Phase
- N/A
- Study type
- Interventional
- Enrollment
- 42 (actual)
- Sponsor
- Peking University Third Hospital · Academic / Other
- Sex
- All
- Age
- 18 Years – 60 Years
- Healthy volunteers
- Accepted
Summary
This study employed two distinct Kinesio Taping (KT) methods to treat patients with Patellar Tendinopathy (PT). It aimed to compare the efficacy between combined KT-EDF (Epidermis-Dermis-Fascia, EDF) with KT-I taping (I Strip Ligament Correction) and KT-I taping alone in improving pain and function among individuals with patellar tendinopathy. Furthermore, specialized equipment was used to assess changes in gait biomechanics before and after the intervention. Finally, this study integrated gait biomechanical data, scale scores, and surface electromyography signals to elucidate the potential mechanisms through which the combination of KT-EDF and KT-I taping improves gait biomechanics and reduces pain, thereby offering new therapeutic strategies for managing patellar tendinopathy with KT.
Detailed description
Patellar Tendinopathy (PT), commonly referred to as "jumper's knee", is a frequent overuse injury resulting from sustained or high-intensity loading on the patellar tendon. It is characterized by tissue degeneration and microscopic tearing of the tendon due to repetitive mechanical stress. The most common site of pain is the junction between the inferior pole of the patella and the tibial tuberosity. Tenderness may also be present throughout the entire patellar tendon region. Pain is often accompanied by swelling and is exacerbated by physical activity. PT not only exhibits high prevalence among athletic populations but also tends to manifest persistent symptoms. Pain typically occurs during quadriceps-dependent activities such as running, jumping, and squatting. Increased exercise intensity aggravates the pain, which adversely affects the patient's quality of life, impairs athletic performance, and leads to abnormal gait biomechanics. Kinesio Taping (KT) is widely employed in musculoskeletal rehabilitation and sports injury prevention. Previous studies have indicated that the Kinesio Taping-I Strip Ligament Correction (KT-I) method, a specific KT technique, can reduce pressure at the patellar tendon insertion on the inferior patellar pole and provide external mechanical support to the tendon structure. However, evidence regarding its effectiveness in improving pain, strength, and functional outcomes in PT patients remains inconsistent. Thus, further investigation is warranted to examine whether alternative KT taping methods can simultaneously alleviate pain and correct abnormal biomechanics in individuals with PT. Among various KT techniques, the Epidermis-Dermis-Fascia (EDF) method employs mesh- or jellyfish-shaped tapes applied with minimal or natural tension (5%-10%) over the affected area. This technique has demonstrated promising results in pain relief and swelling reduction within musculoskeletal rehabilitation contexts. Furthermore, while existing studies on KT for PT have primarily focused on outcomes such as pain, strength, jumping and squatting performance, balance, and joint mobility, there is a notable lack of research regarding its effects on abnormal gait biomechanics in this population. To address these gaps, this study combined EDF taping with KT-I taping for the treatment of PT patients. Gait parameters, surface electromyography (sEMG) signals of key lower limb muscles, isokinetic strength measurements, pain scores, and VISA-P (Victorian Institute of Sports Assessment-Patellar) scores were collected before and after the intervention. The outcomes were compared with those obtained from PT patients treated with KT-I taping alone. This study aimed to investigate the potential benefits of combined KT-EDF and KT-I taping in improving pain and function in PT patients, with particular emphasis on gait biomechanical characteristics. The ultimate goal is to enhance patients' quality of life, reduce sports-related injuries, and provide new insights and clinical references for the application of KT in the management of PT.
Conditions
Interventions
| Type | Name | Description |
|---|---|---|
| BEHAVIORAL | Kinesio Taping | KT-EDF + I Taping Method: With the knee flexed at 60°, two mesh-shaped Kinesio Tape strips were applied with natural tension over the painful area of the patellar tendon. A "jellyfish"-shaped Kinesio Tape strip was then placed with natural tension at the center of the knee joint, aligning its central hole with the treatment area. A thin KT strip was wrapped clockwise around this assembly. Next, the center of an I-shaped tape strip was stretched to 50%-75% tension and applied horizontally over the painful region of the patellar tendon, covering one-third to one-half of the width of the inferior pole of the patella. The ends were secured without tension. Additionally, a "Y"-shaped muscle tape was applied to the gluteus medius, running from the muscle origin to its insertion point. After taping, patients were instructed to keep the tape in place for five days before replacement. The KT-EDF + I taping intervention was continued for a total of eight weeks. |
| BEHAVIORAL | Kinesio Taping | KT-I Taping Method: With the knee joint bent to 30°, an "I"-shaped muscle tape was applied horizontally over the painful area of the patellar tendon (from the center toward both sides) with 50%-75% tension. Subsequently, a "Y"-shaped muscle tape was applied to the gluteus medius, running from the muscle's origin to its insertion point. After taping, patients were instructed to leave the tape in place for five days before replacement. The KT-I taping intervention was continued for a total of eight weeks. |
| BEHAVIORAL | exercise therapy | Phase 1 aims to control load and alleviate pain. It includes isometric quadriceps exercises, wall-supported double-legged squats (at 90 degrees of knee flexion), Spanish squats, vastus medialis training, single-leg hip bridges with the affected leg supported, as well as stretching of the quadriceps, hamstrings, and triceps surae. Phase 2 focuses on gradually increasing load and strengthening exercise intensity. This phase incorporates eccentric and progressive loading movements, such as single-leg squats on a 25° inclined surface, lunges, vastus medialis activation, step-ups, and resistance exercises for the gluteal muscles. Phase 3 is designed to enhance functional capacity and facilitate a gradual return to sport. It involves energy-storage activities like jumping, box jumps, and interval running, with progressive increases in jump height, running distance, and speed. Once all exercises can be completed without knee discomfort for 24 hours, sport-specific training may be gradually |
Timeline
- Start date
- 2025-08-31
- Primary completion
- 2025-12-01
- Completion
- 2025-12-06
- First posted
- 2025-08-27
- Last updated
- 2025-12-26
Locations
1 site across 1 country: China
Source: ClinicalTrials.gov record NCT07143942. Inclusion in this directory is not an endorsement.