Massage Versus Cold Water Immersion for Fatigue-induced Biomechanical Alterations
- Conditions
- FatigueRunning
- Interventions
- Other: Cold water immersionOther: Massage
- Registration Number
- NCT03578666
- Lead Sponsor
- Iraia Bidaurrazaga-Letona
- Brief Summary
The optimization of recovery to alleviate the effects of fatigue in athletes can provide valuable performance advantage. However, despite the growing body of literature regarding effects of different interventions in fatigue, there is still lack of clarity regarding the efficacy of interventions on running economy and, particularly, fatigue-induced biomechanical alterations. Therefore, the aim of this study was to compare the effects of massage and cold water immersion for enhancing recovery and alleviating fatigue after an exhausting training session. We hypothesized that both massage and cold water immersion would enhance biomechanical parameters compared with a control condition and hence would improve subsequent running economy.
- Detailed Description
In this randomized controlled all the subjects (n=48) will performed the same protocol. The protocol will begin with a exhausting training session (20-min warm-up consisted of 15-min of continuous self-paced running followed by 5-min of fast-finish progression runs increasing speeds (from approximately 60% to 80% of maximal heart rate, participant controlled), 10 x 500 m sprints at 90% of maximal heart rate with a 2-min rest period between bouts and a recovery phase consisting of 10-min of slow jogging). Twenty-four hours after this exhausting training, subjects will perform an incremental running test on a treadmill (Pre-intervention test) where subjects will start at 12 km/h for 6 min after which speed will be increased by 2 km/h every 6 min until a 16 km/h trial is completed. At the end of each stage, participants will rate their perceived exertion using the 10-point Modified Borg rating of perceived exertion scale (RPE scale). One hour after this test, in one protocol subjects will receive the massage intervention, (Massage group); other group will receive a cold water immersion intervention (Cold water immersion group); in the other group (Control group) participants will rest passively in a sitting position for 30-min period. To evaluate the relevance of the changes induced by the interventions (massage, cold water immersion, passive rest) subjects will repeat the treadmill test 48 hours after the first test (72 hours after the exhaustive training).
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- Male
- Target Recruitment
- 48
- Recreationally active (current participation in races and a 10-km race time<34.5-min)
- Suffered from any injury within the preceding 4 months.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Cold water immersion group Cold water immersion Recreational active runners recruited from local running clubs(n= 16) will immerse for 10 minutes in a cold water bath Massage Group Massage Recreational active runners recruited from local running clubs (n= 16) will receive 40 minutes of massage therapy.
- Primary Outcome Measures
Name Time Method - CHANGE FROM BASELINE OXYGEN UPTAKE AT 48 HOURS AFTER THE TREATMENT Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Oxygen uptake (mL kg-1 min-1) will be assessed in an incremental running test on a treadmill (HP Cosmos pulsar, Nussdorf-Traunstein, Germany). Oxygen uptake will be recorded using a gas analyzer system (Esgostik Geratherm, Geschwenda, Germany).
- CHANGE FROM BASELINE STRIDE LENGTH AT 48 HOURS AFTER THE TREATMENT. Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Stride length (cm) defined as the length the treadmill belt moves from toe-off to initial ground contact in successive steps, will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- CHANGE FROM BASELINE SWING TIME AT 48 HOURS AFTER THE TREATMENT. Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. The swing time (ms) corresponds to the time from foot flat to initial take-off. Swing time will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- CHANGE FROM BASELINE CONTACT PHASE AT 48 HOURS AFTER THE TREATMENT. Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Contact time (ms), defined as the percentage of the ground contact time at which the different sub-phases of stance phase occur, will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- CHANGE FROM BASELINE RATING OF PERCEIVED EXERTION AT 48 HOURS AFTER THE TREATMENT Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Modified Borg rating of perceived exertion scale (RPE scale) defined as a way of measuring physical activity intensity level, how hard you feel like your body is working. The Borg RPE scale is a numerical scale that ranges from 1 to 10, where 0 means "no exertion at all" and 10 means "maximal exertion."
- CHANGE FROM BASELINE STRIDE FREQUENCY AT 48 HOURS AFTER THE TREATMENT. Time Frame: Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Stride frequency, defined as the number of ground contact events per minute, will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- CHANGE FROM BASELINE STRIDE ANGLE AT 48 HOURS AFTER THE TREATMENT. Time Frame: Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Stride angle (º), defined as the angle of the parable tangent derived from the theoretical arc traced by a foot during a stride and the ground, will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- CHANGE FROM BASELINE GROUND CONTACT TIME AT 48 HOURS AFTER THE TREATMENT. Time Frame: Participants will be assessed at baseline (24 hours after an exhaustive training session) and at 48 hours after the treatment. Ground contact time (s), defined as the time from when the foot contacts the ground to when the toes left the ground and was determined by the disruption of the infrared gates, will be measured using an optical measurement system (Optojump-next, Microgate, Bolzano, Italy) placed at the treadmill belt level.
- Secondary Outcome Measures
Name Time Method Body height (cm) Participants will be assessed at baseline (24 hours after an exhaustive training session). - Body height (cm) will be measured using a stadiometer (Año Sayol, Barcelona, Spain) following the guidelines outlined by the International Society for the Advancement of Kinanthropometry.
Body mass (kg) Participants will be assessed at baseline (24 hours after an exhaustive training session). - Body mass (kg) will be measured using a balance (Año Sayol, Barcelona, Spain) following the guidelines outlined by the International Society for the Advancement of Kinanthropometry.
- Skinfolds (mm) Participants will be assessed at baseline (24 hours after an exhaustive training session). - Skinfolds (mm) will be measured at four sites (triceps, subscapular, abdominal, suprailiac) using a Harpenden Skinfold Caliper (Baty, West Sussex, UK) following the guidelines outlined by the International Society for the Advancement of Kinanthropometry.