Exercise Therapy for Patellar Tendinopathy Evaluated With Advanced UTE-MRI

Tendinopathy Clinical Trial

Official title:

Progressive Tendon-loading Exercise Therapy for Patellar Tendinopathy in Jumping Athletes: A Randomized Controlled Clinical Trial Evaluated With Advanced 3D UTE MR

Clinical Trial Details — Status: Active, not recruiting

Administrative data

• NCT number: NCT02938143
• Other study ID #: UTE MRI
• Status: Active, not recruiting
• Phase: N/A
• Start date: January 2017
• Est. completion date: January 2024

Study information

• Verified date: March 2022
• Source: Erasmus Medical Center
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Patellar tendinopathy is a frequent overuse injury that causes pain and impaired performance in jumping athletes. Exercise therapy is considered the best initial treatment option for tendinopathies as clinical improvements in pain and function have been demonstrated. Although painful eccentric exercise protocols have been promoted as standard care based on positive results in early studies, a recent systematic review demonstrated that these are not associated with improved tendon structure and are ineffective when applied in-season. Progressive tendon-loading exercise therapy for patellar tendinopathy constitutes a novel concept in sports medicine. A recent study advocates a progressive 4-stage criteria-based exercise protocol as it results in a less reactive tendon and ability to restore collagen alignment. This protocol consists of progressive isometric, isotonic, plyometric, and sport-specific exercises. Isometric exercises have been shown to reduce pain and decrease motor cortex inhibition of the quadriceps. This approach would enable jumping athletes to resume sports within the limits of pain, with improved muscle function, and sufficient tendon structure re-organization. The diagnostic imaging work-up of patellar tendinopathy typically consists of ultrasound, magnetic resonance imaging (MRI), or a combination of both. Ultrashort echo time (UTE) MRI is an advanced MRI technique, which enables assessment of tissues with short T2-time, such as tendon, the structure of which is invisible on regular MRI. UTE has been shown to quantitatively depict changes in tendon microstructure and therefore allows in-vivo evaluation of tendon regeneration. It is currently unknown whether quantitative UTE MRI parameters change after exercise treatment, are related to clinical symptoms of patellar tendinopathy, have prognostic value for exercise treatment response, and offer additional value over ultrasound

Description:

Patellar tendinopathy ('jumper's knee') is a clinical condition of gradually progressive activity-related pain at the insertion of the patellar tendon at the apex patellae. Prolonged repetitive stress of the knee-extensor apparatus can lead to this common overuse tendinopathy in athletes from different sports, resulting in pain and impaired performance in athletes. High prevalence rates have been reported in jumping sports such as volleyball and basketball (45% and 32% in elite athletes, respectively). Symptoms can be long-standing if not treated appropriately in the initial stages. Furthermore, there is currently no strong evidence for second-line treatments such as shockwave therapy and platelet-rich plasma. Therefore, it is important to improve exercise protocols as a first treatment of choice.

Tendinopathy is a widely accepted, generic term that encompasses any abnormal condition of a tendon. Clinical symptoms include activity-related pain associated with tenderness, localized swelling and impaired performance. Histopathologically, tendinopathy is characterized by structural disorganization of the tendon collagen that alters the loading capacity of a specific tendon.

Exercise therapy is considered as the best initial treatment option for tendinopathies as histopathological changes and clinical improvements on pain and function have been demonstrated. Most studies have been conducted using eccentric exercise protocols and early studies showed positive effects, resulting in promoting these isolated painful exercises as standard care. One hypothesis behind the potential beneficial effects of eccentric exercises is that increased load results in increased collagen synthesis and subsequent healing response. However, a recent systematic review demonstrated that the available literature does not support observable structural change as an explanation for the response of eccentric exercises. Furthermore, eccentric exercises may not be effective for reducing pain and improving strength when used in-season and might even increase symptoms in jumping athletes with patellar tendon pathology.

Progressive tendon-loading exercise therapy for patellar tendinopathy constitutes a novel concept in sports medicine. A recent publication advocates a progressive 4-stage criteria-based exercise protocol within the limits of pain, consisting of progressive isometric, isotonic, plyometric, and sport-specific exercises, resulting in a less reactive tendon, immediate decreased pain levels, diminished motor cortex inhibition of the quadriceps muscles, and potential to restore collagen alignment. These new insights are completely conflicting with the painful heavy-load eccentric exercise protocols currently applied as usual care. It is currently unknown which exercise therapy is the best strategy for athletes with patellar tendinopathy, as adequately powered randomized studies are lacking.

Although clinical examination represents the gold standard in the diagnosis of patellar tendinopathy, it is commonplace to perform diagnostic imaging of the patellar tendon to confirm the diagnosis and rule out alternative diagnoses. Furthermore, imaging can be used to estimate response to treatment. This diagnostic imaging work-up usually consists of magnetic resonance imaging (MRI), ultrasound or, occasionally, a combination of both. On "regular" MRI, increased tendon size and visually increased signal intensity within the proximal patellar tendon can be observed in patellar tendinopathy , but altered tendon microstructure is invisible. A novel innovative method to detect tendon abnormalities is the ultrashort echo time (UTE) MRI technique. UTE enables accurate detection of changes in a reactive tendon both visually and in a quantitative manner by measuring T2* relaxation time UTE MRI has also been shown to quantitatively depict changes in tendon microstructure and, therefore, this innovative imaging modality allows in-vivo evaluation of tendon regeneration. It is currently unknown whether quantitative UTE MRI parameters change after exercise treatment, are related to clinical symptoms of patellar tendinopathy, and have prognostic value for exercise treatment response.

Recruitment information / eligibility

• Status: Active, not recruiting
• Enrollment: 76
• Est. completion date: January 2024
• Est. primary completion date: January 2024
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years to 35 Years

Eligibility

Inclusion Criteria:

Age 18-35 years old (the chosen age range will minimize chances of other conditions causing anterior knee pain such as osteoarthritis and osteochondrotic diseases like Sinding-Larsen-Johansson syndrome and Osgood-Schlatter disease) History of knee pain in patellar tendon or its patellar or tibial insertion in association with training and competition Playing sports for at least 3 times a week Palpation tenderness to the corresponding painful area On ultrasound, there needs to be a fusiform tendon thickening and/or decreased tendons structure and/or increased Doppler signal within the patellar tendon27 VISA-P score < 80/100 points

Exclusion Criteria:

Known presence of inflammatory joint diseases (e.g. spondylarthropathy, gout or rheumatoid arthritis) or familial hypercholesterolaemia.

Contraindications for MRI (pregnancy, metallic implants, etc.) Daily use of drugs with a putative effect on the patellar tendon in the preceding year (e.g. fluoroqinolones and statins) Knee surgery in the history of the index knee Previous patellar tendon rupture of the index knee Local injection therapy with corticosteroids in the preceding 12 months Daily exercise therapy with a minimum duration of 4 weeks in total in the preceding 12 months Acute knee or patellar tendon injuries Inability to perform an exercise program Participation in other concomitant treatment programs Signs or symptoms of other coexisting knee pathology on physical examination (such as joint effusion and joint line tenderness) or additional diagnostics (Chondral lesion of the patella or trochlea on MRI or prepatellar bursitis on US).

Related Conditions & MeSH terms

• Tendinopathy

Intervention

Procedure:
• Exercise
The intervention treatment is a progressive 4-stage criteria-based exercise protocol within the limits of pain, consisting of progressive isometric, isotonic, plyometric, and sport-specific exercises.24 Progression criteria are individualized.
• Exercise (usual care)
The control treatment is a painful heavy-load eccentric exercise program performed twice daily with 3 sets of 15 repetitions for 12 weeks on a 25° decline board. The downward component (eccentric component) will be performed with the symptomatic leg and the upward component (concentric phase) on the asymptomatic leg.

Locations

Country	Name	City	State
Netherlands	ErasmusMC	Rotterdam	Zuid Holland

Sponsors (1)

Lead Sponsor	Collaborator
Erasmus Medical Center

Country where clinical trial is conducted

Netherlands, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Other	US:· Grey scale: maximum anterior-posterior (AP) thickness, presence of calcification	Grey scale: maximum anterior-posterior (AP) thickness, presence of calcification	3 years
Other	US: PDU: Doppler signal (neovascularisation score determined with the modified Ohberg Scale).	PDU: Doppler signal (neovascularisation score determined with the modified Ohberg Scale).	3 years
Primary	The change of the validated and disease-specific VISA-P score over 24 weeks	The change of the validated and disease-specific VISA-P score over 24 weeks	24 weeks
Secondary	Subjective patient satisfaction	Subjective patient satisfaction (excellent / good / fair / poor)	3 years
Secondary	Return to sports	Return to sports (Return to desired sport on pre-injury level / return to desired sport but on a lower level / return to sports but not desired sport / no return to sports	3 years
Secondary	Time to return to full training in desired sport	Time to return to full training in desired sport	3 years
Secondary	Pain rating on a Visual Analogue Scale (VAS)	Pain rating on a Visual Analogue Scale (VAS) in which 0 represents no pain, and 100 maximal pain	3 years
Secondary	Strength (N.kg.m) of the abductors and quadriceps muscles using dynamometry	Strength (N.kg.m) of the abductors and quadriceps muscles using dynamometry Leg length of the upper extremity will be measured to be able to correct for lever arm.	3 years
Secondary	Flexibility of the calf muscles using the weight-bearing dorsiflexion lunge tes	Flexibility of the calf muscles using the weight-bearing dorsiflexion lunge tes	3 years
Secondary	Compliance to the exercise program (total percentage of prescribed exercises performed).	Compliance to the exercise program (total percentage of prescribed exercises performed). This will be asked on a weekly basis using a short online questionnaire.	3 years
Secondary	Training load	Training load, which is defined as: Total duration of training and match play per week (minutes) multiplied by the experienced intensity of training sessions and games using the modified Borg CR-10 RPE scale.46 This will be asked on a weekly basis using a short online questionnaire.	3 years
Secondary	MRI: Conventional: maximum anterior-posterior (AP) thickness and signal abnormalities	Conventional: maximum anterior-posterior (AP) thickness and signal abnormalities (intratendinous, peritendinous).	3 years
Secondary	MRI: 3D UTE Cones: T2* relaxation time	3D UTE Cones: T2* relaxation time	3 years