Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT04123782 |
Other study ID # |
REHAB-2019-01 |
Secondary ID |
|
Status |
Completed |
Phase |
N/A
|
First received |
|
Last updated |
|
Start date |
June 29, 2019 |
Est. completion date |
July 15, 2021 |
Study information
Verified date |
July 2021 |
Source |
Fundación Garcia Cugat |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Interventional
|
Clinical Trial Summary
The biological principles on which is based Focused Shockwave Treatment (F-ESWT) is has been
demonstrated mostly in terms of improvement of Platelet Derived Growth Factor (PDGF),
Vascular Endothelial Growth Factor (VEGF), Fibroblast Growth Factor (FGF), Insulin Growth
Factor-1 (IGF-1) and Transforming Growth Factor b1 (TGF-b1). Nevertheless, to date Focused
Shockwave Treatment is not used in the treatment of acute pathologies and consequently in
acute muscle lesion, despite there are no contra-indication in that sense. A recent study of
Zissler et al. demonstrate how focused shockwave treatment induce an acceleration of the
biological process of recovery during the acute phase of muscle injury in rats, and in 2016
Kisch et al. demonstrate that Focused ESWT enhances blood flow in the muscle of rats and
repetitive ESWT extended this beneficial effect. The only clinical trial in humans about
acute pathology in muscle was realized by Fleckenstein et al. in 2016, in which demonstrate
that a single treatment with F-ESWT causes clinically relevant effects in the relief of pain,
increase in force and improvement of pain-associated impairments of daily living in subjects
affected by DOMS. However, there are no studies in humans that describe the effect of F-ESWT
in muscle injuries. Considering the greater number of evidences about the biological effects
of F-ESWT, namely anti-inflammation, neo-vascularization and tissue regeneration and their
parallelism in many aspects with one of the most novelty treatment of muscle injuries, as for
example the growth factors therapy, the hypothesis is to obtain favorable and better
outcomes, both ultrasonographic and clinical, in subjects treated with F-ESWT than in
subjects treated with standard treatments.
Study Hypothesis: The hypothesis of our study is that 3 sessions of focused shockwave
treatment (1 per week), performed in acute phase of injury (≤ 2 weeks), a total of 3.000
shocks with an energy flux density of 0,12 mJ/mm2 at 5 Hz, can improve the recovery process
of acute indirect hamstrings injuries, with results both clinical and ultrasonographic.
Primary Objective To analyze the effect of Focused Shockwave Treatment in acute indirect
hamstring injuries in soccer players.
Secondary Objectives
- To analyze the effect of Focused Shockwave Treatment in acute indirect hamstring
injuries in soccer players.
- To analyze prognostic factors (demographic, clinical, imaging variables).
Description:
Primary Objective To analyze the effect of Focused Shockwave Treatment in acute indirect
hamstring injuries in soccer players.
Secondary Objectives
- To analyze the effect of Focused Shockwave Treatment in acute indirect hamstring
injuries in soccer players.
- To analyze prognostic factors (demographic, clinical, imaging variables). Study Outcome
Measures Primary outcome: Repair process, injury size and Return to play Secondary
outcomes: Functional scales: VAS, LEFS and Tegner Satisfaction scales: Roles and
Maudsley and Likert scale
DESIGN This is a single blind randomized clinical trial that will be conducted in Quirónsalud
Barcelona, Spain. The study will enroll patients suffering an acute indirect injury of common
tendon of hamstrings, over a 5-months period. The duration of the trial will be of
approximately 8 months. This protocol calls for 9 visits to be performed over a 8-weeks
period for each patient (see flow-chart). As an intention-to-treat study, data analysis will
be based on the randomization of the patients. At Visit 1 (screening visit; T0), patients
will first need to provide written signed informed consent before any data is collected or
procedures are performed. Then, patients will be screened for eligibility for the study by
ascertaining that all inclusion criteria and no exclusion criteria are met. At V1, the
Investigator will gather demographic and medical history data and will carry out clinical and
ultrasonographic evaluation. The treatment period will consist of three sessions of ESWT,
performed one week apart and within 2 weeks from the day of injury. Clinical and
ultrasonographic data will continue to be collected during a follow-up period consisting of 9
visits, one per week and performed starting at 1 week from visit 1 (V1;T0). The last
follow-up visit will performed at 10 weeks from visit 1 (V1;T0).
Treatment Assignment Procedures i. Randomization Procedures: We will use block randomization,
which is commonly used in the two treatment situations where the samples of the two
treatments must be equal or equally equal. The process will involve recruiting participants
in short blocks and ensuring that half of the participants within each block are assigned to
"A" and the other half to "B". Within each block, however, the order of patients will be
random. They will be considered blocks of four dimensions: 1. AABB, 2. ABAB, 3. ABBA, 4.
BAAB, 5. BABA, 6. BBAA. We will randomly select between these six different blocks for each
group of four recruited participants. The random selection will be done using a list of
random numbers generated using statistical software (Excel).
ii. Masking Procedures: The participants will be blinded to the type of ESWT treatment and
the assessor, data managers, statistician and study monitors will be blinded to the
allocation. All participants who receive ESWT treatment will be treated using the same device
(Duolith® SD-1 STORZ Medical, Switzerland) regardless of what group they are included in. The
participants will not be able to predict the allocated group based on the appearance of the
ESWT treatment. The blinding will be maintained until the data are locked. For blinding
evaluation, allocation guessing will be assessed immediately after the final treatment.
Practitioners and assessors will be instructed to treat the participants according to
predefined standard operating procedures during the trial to maintain blinding.
MATERIAL AND METHOD Study intervention
Soccer players suffering from indirect acute hamstring injury, will be selected for this
study, sign up for an informed consent form, informed about the details of the procedure and
the potential risks before treatment and randomized into 2 treatment groups:
- Group A (F-ESWT group): 3 sessions, one per week, of electromagnetic focused
extracorporeal shockwave treatment (3000 impulses at 0.12 mJ/mm2 per session).
- Group B (placebo group): 3 sessions, one per week, of electromagnetic focused
extracorporeal shockwave treatment (3000 impulses at 0.01 mJ/mm2 per session).
All treatments will be performed by the senior authors. In all cases, a focused
electromagnetic shockwave device will be used (Duolith® SD-1, STORZ Medical, Switzerland).
The procedure will be performed with the patient in lateral positioning of the decubitus
pronus. The treatment area will be prepared with a coupling ultrasound gel to minimize the
loss of shockwave energy at the interface between the tip of the applicator and the skin. The
inline ultrasonic guide will be used to concentrate the shockwaves on the injury area in the
muscle. No local anesthesia will be applied.
STUDY EVALUATIONS Injury size: Evaluation of the three major diameters of the lesion. Grade
of repair process (A,B,C,D): Evaluation of the repair process with stages from A to D, where
A represented the absence of repair, B a start in the repair process with less than 50 % scar
tissue, C advanced repair process with more than 50 % repaired tissue and stage D when
complete repair was observed.
Visual Analogue Scale (VAS): The visual analogue scale (VAS) is considered to be one of the
best methods available for the estimation of the intensity of pain. The VAS provides a
continuous scale for magnitude estimation and consists of a straight line, the ends of which
are defined in terms of the extreme limits of pain experience. Respondents mark the location
on the 10-centimeter line corresponding to the amount of pain experienced. This gives the
greatest freedom to choose pain's exact intensity. It also gives the maximum opportunity for
each respondent to express a personal response style.
Lower Extremity Functional Scale (LEFS): The Lower Extremity Functional Scale (LEFS) is a
sensitive and reliable outcome measure that has commonly been used in patients with hip and
knee dysfunction. The Lower Extremity Functional Scale (LEFS) is a questionnaire containing
20 questions about a person's ability to perform everyday tasks. The LEFS can be used by
clinicians as a measure of patients' initial function, ongoing progress and outcome, as well
as to set functional goals. The LEFS can be used to evaluate the functional impairment of a
patient with a disorder of one or both lower extremities.
Tegner activity scale: Tegner activity level scale is a graduated list of activities of daily
living, recreation and competitive sports. The patient is asked to select the level of
participation that best describes their current level of activity (before injury). The score
varies from 0-10. A score of 0 represents sick leave or disability pension, whereas a score
of 10 corresponds to participation in national and international elite competitive sports >6
Roles and Maudsley scale: The RM scale is a subjective 4-point patient assessment of pain and
limitations of activity. The RM score has been used extensively at centers throughout the
world to assess outcome after SWT. On the scale, 1 point indicates an excellent result with
the patient having no symptoms. Two points indicate a good result with the patient
significantly improved from the pretreatment condition and satisfied with the result. Three
points indicate a fair result with the patient somewhat improved from the pretreatment
condition and partially satisfied with the treatment outcome. Four points indicate a poor
outcome with symptoms identical or worse than the pretreatment condition and dissatisfaction
with the treatment result.
Likert scale (1-6): Degree of recovery compared with baseline, measured on a 6-point Likert
scale (completely recovered to much worse). Success rates will be calculated by dichotomizing
responses.
Return to play: Return to Play is the process of deciding when an injured or ill athlete may
safely return to practice or competition.
ETHICS/PROTECTION OF HUMAN SUBJECTS
1. Ethical Standard: This clinical study was designed and shall be conducted and reported
in accordance with the International Conference for Harmonization (ICH) Harmonized
Tripartite Guidelines for Good Clinical Practice, with applicable local regulations
(including European Directive 2001/20/EC), and with the ethical principles laid down in
the Declaration of Helsinki.
2. Independent Ethics Committee: The protocol, informed consent form, recruitment
materials, and all subject materials will be submitted to an Independent Ethics
Committee (IEC) in each center for review and approval. Approval of both the protocol
and the consent form must be obtained before any subject is enrolled. The implementation
of any change in the protocol will not be permitted until the principal investigator and
the IEC have provided written approval of the change.
3. Informed Consent Process: Informed consent is a process that is initiated prior to the
individual agreeing to participate in the study and continues throughout study
participation. An extensive discussion of the risks and possible benefits of study
participation will be held with the subjects. A consent form describing in detail the
study procedures and risks will be given to the subject. Consent forms will be
IEC-approved, and the subject is required to read and review the document or have the
document read to him or her. The investigator or designee will explain the research
study to the subject and answer any questions that may arise. The subject will sign the
informed consent document prior to any study-related assessments or procedures. Subjects
will be given the opportunity to discuss the study with their families and take all the
time they need prior to agreeing to participate. They may withdraw consent at any time
throughout the course of the study. A copy of the signed informed consent document will
be given to the subjects for their records. The rights and welfare of the subjects will
be protected by emphasizing to them that the quality of their clinical care will not be
adversely affected if they decline to participate in this study. The consent process
will be documented in the clinical records.
4. Subject Confidentiality: Subject confidentiality shall be guaranteed at all times by the
investigators, study staff, and the sponsor and their delegates. The study protocol,
documentation, data, and all other information generated will be strictly confidential.
No information concerning the study or the data will be released to any unauthorized
third party without prior written approval of the sponsor.
The study monitor or other authorized representatives of the sponsor may inspect all study
documents and records required to be maintained by the investigator, including but not
limited to the medical records of the study subjects. The clinical study site will permit
access to such records.
DATA HANDLING AND RECORD KEEPING The investigator will be responsible for the completeness,
accuracy and timeliness of the data reported. All source documents should be completed in a
neat, legible manner to ensure the accurate interpretation of data. The Investigator is
required to verify the data transcribed onto the database.
The study monitors then have to check the database against the source documents for accuracy
and validity as per the monitoring schedule, as applicable.
1. Data Management Responsibilities Data collection and accurate documentation are the
responsibility of the study staff under the supervision of the investigator. All source
documents and laboratory reports must be reviewed by Site staff and data entry staff,
who will ensure that they are accurate and complete. Unanticipated problems and adverse
events must be reviewed by the investigator or designee.
2. Protocol Deviations The occurrence of any protocol deviations will be reported during
the conduct of the study. All significant protocol deviations will be recorded and
reported in the clinical study report.