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Effects of Diacutaneous Fibrolysis on Flexibility and Active Neuromuscular Response

Effects of Diacutaneous Fibrolysis on Flexibility and Active Neuromuscular Response on Posterior Muscular Chain of Lower Limb in Athletes

Status
UNKNOWN
Phases
NA
Study type
Interventional
Source
ClinicalTrials.gov
Registry ID
NCT04827082
Enrollment
66
Registered
2021-04-01
Start date
2021-04-01
Completion date
2021-07-01
Last updated
2021-04-01

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Hamstring Contractures

Keywords

Diacutaneous fibrolysis, Physiotherapy, Neuromuscular response

Brief summary

Diacutaneous fibrolysis is a physiotherapeutic instrumental technique, used to treat musculoskeletal conditions causing pain and/or movement restriction. It is applied by means of metallic hooks, ending in a spatula with beveled edges, that seems to allow a better pressure distribution on the skin and a deeper and more precise application, compared to the manual approach. Recent studies indicate positive responses regrading pain intensity decrease in sports people suffering anterior knee pain, improving range of motion in subacromial impingement syndrome, improving sensory conductivity in symptomatic patients with carpal tunnel syndrome, decreased pain in patients with chronic epicondialgia or improveing function athletes with anterior knee pain. However, the specific action mechanism, have not been investigated in depth yet. There are no studies evaluating its effects on posterior muscular chain of lower extremity in athletes, where FD effects on neuromuscular response could be more evident due to the overload involved on this area. The aim of this study is to evaluate the immediate, and after 30 minutes, effects of a single diacutaneous fibrolysis session on flexibility, strength and neuromuscular activity on hamstring in athletes. A randomized controlled trial with blind evaluator. Randomization will be done between lower extremities of each subject (Random.org). Regardless of its own dominance, diacutaneous fibrolysis will be applied to de following muscles and intermuscular septums: gluteus maixmus, biceps femoris and semitendinosus to de lower experimental limb. The other extremity will not be treat (control limb). Sample recruitment. Athletes from UIC university community, who compete officially or institutionally, whether they are federated or recorded in a sport official register where the predominant activity focuses on the lower train (athletics, cycling, football, rugby...). Procedure. The anthropometric data will be collected at the beginning of the study. Each outcome assessment will be performed by a blinded evaluator at the baseline, immediately after the technique application and 30 minutes after.

Interventions

OTHERDiacutaneous fibrolysis

Diacutaneous fibrolysis is a physiotherapeutic instrumental technique, used to treat musculoskeletal conditions causing pain and/or movement restriction. It is applied by means of metallic hooks, ending in a spatula with beveled edges. Regardless of its own dominance, diacutaneous fibrolysis will be applied to de following muscles and intermuscular septums: gluteus maximus, biceps femoris and semitendinosus to de lower experimental limb. A single session of 10 minutes will be applied.

Sponsors

Universitat Internacional de Catalunya
Lead SponsorOTHER

Study design

Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
SINGLE (Outcomes Assessor)

Masking description

The assessor will not know if patient have received the treatment or not

Intervention model description

A randomized control trial

Eligibility

Sex/Gender
ALL
Age
18 Years to 60 Years
Healthy volunteers
Yes

Inclusion criteria

* Athletes * \<160º in the Passive Knee Extension test * Participants must sign and have informed consent.

Exclusion criteria

* Poor skin * Trophic condition * Taking anticoagulants * Inflammatory process * Recent musculoskeletal lower limb injury (\< 6 month)

Design outcomes

Primary

MeasureTime frameDescription
Gluteus maximus neuromuscular activityChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Gluteus maximus neuromuscular activity (% of muscular fiber recruitment) will be assessed by surface electromyogram (mDurance). The electrodes will be placed on gluteus maximus muscle while performing a functional movement.
Hamstring neuromuscular activityChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Hamstring neuromuscular activity (% of muscular fiber recruitment) will be assessed by surface electromyogram (mDurance). The electrodes will be placed on hamstring muscle while performing a functional movement.
Hamstring isometric strengthChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Isometric muscle strength (Kg) will be evaluated by means of a digital dynamometer (Microfeet 2). This measures will be taken across a knee flexion.
Guteus maximus isometric strengthChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Isometric muscle strength (Kg) will be evaluated by means of a digital dynamometer (Microfeet 2). This measures will be measured by means of hip extension.
Height on counter movement jumpChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Height (centimeters) on counter movement jump will be assessed using a mobile application called My jump. Its data has been used as an indirect indicator of explosive muscular strength of lower limb
Time flight on counter movement jumpChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Time flight (milliseconds) on counter movement jump will be assessed using a mobile application called My jump.
Force on counter movement jumpChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Force (newtons) on counter movement jump will be assessed using a mobile application called My jump.
Back chain flexibility ChangesChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Back chain flexibility is going to be assessed by means of modified Back Saver Sit and reach test (centimeters).
Hamstring flexibility changesChange between baseline (immediately before intervention) and post intervention (immediately after intervention); Change between baseline (immediately before intervention) and 30 minutes after intervention]Hamstring muscles flexibility will be assessed using the passive knee extension test (degrees) by means of goniometer.

Countries

Spain

Contacts

Primary ContactAida C Arróniz, MsC
acadellans@uic.es635246977

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026