Compression Clothing https://greenmedinfo.com/category/keywords/Compression%20Clothing en Compression garment use after exercise could be used to improve the recovery of muscle function. https://greenmedinfo.com/article/compression-garment-use-after-exercise-could-be-used-improve-recovery-muscle-f PMID:  Int J Sports Physiol Perform. 2017 Sep ;12(8):1078-1084. Epub 2017 Jan 4. PMID: 28051341 Abstract Title:  The Effects of Compression-Garment Pressure on Recovery After Strenuous Exercise. Abstract:  : Compression garments are frequently used to facilitate recovery from strenuous exercise.PURPOSE: To identify the effects of 2 different grades of compression garment on recovery indices after strenuous exercise.METHODS: Forty-five recreationally active participants (n = 26 male and n = 19 female) completed an eccentric-exercise protocol consisting of 100 drop jumps, after which they were matched for body mass and randomly but equally assigned to a high-compression pressure (HI) group, a low-compression pressure (LOW) group, or a sham ultrasound group (SHAM). Participants in the HI and LOW groups wore the garments for 72 h postexercise; participants in the SHAM group received a single treatment of 10-min sham ultrasound. Measures of perceived muscle soreness, maximal voluntary contraction (MVC), countermovement-jump height (CMJ), creatine kinase (CK), C-reactive protein (CRP), and myoglobin (Mb) were assessed before the exercise protocol and again at 1, 24, 48, and 72 h postexercise. Data were analyzed using a repeated-measures ANOVA.RESULTS: Recovery of MVC and CMJ was significantly improved with the HI compression garment (P<p><a href="https://greenmedinfo.com/article/compression-garment-use-after-exercise-could-be-used-improve-recovery-muscle-f" target="_blank">read more</a></p> https://greenmedinfo.com/article/compression-garment-use-after-exercise-could-be-used-improve-recovery-muscle-f#comments Muscle Damage: Exercise-Induced Exercise Compression Clothing Human Study Thu, 08 Mar 2018 02:15:47 +0000 greenmedinfo 160884 at https://greenmedinfo.com Influence of different types of compression garments on exercise-induced muscle damage markers after a soccer match. https://greenmedinfo.com/article/influence-different-types-compression-garments-exercise-induced-muscle-damage- PMID:  Res Sports Med. 2018 Jan-Mar;26(1):27-42. Epub 2017 Oct 30. PMID: 29082755 Abstract Title:  Influence of different types of compression garments on exercise-induced muscle damage markers after a soccer match. Abstract:  There is not enough evidence of positive effects of compression therapy on the recovery of soccer players after matches. Therefore, the objective was to evaluate the influence of different types of compression garments in reducing exercise-induced muscle damage (EIMD) during recovery after a friendly soccer match. Eighteen semi-professional soccer players (24 ± 4.07 years, 177 ± 5 cm; 71.8 ± 6.28 kg and 22.73 ± 1.81 BMI) participated in this study. A two-stage crossover design was chosen. Participants acted as controls in one match and were assigned to an experimental group (compression stockings group, full-leg compression group, shortsgroup) in the other match. Participants in experimental groups played the match wearing the assigned compression garments, which were also worn in the 3 days post-match, for 7 h each day. Results showed a positive, but not significant, effect of compression garments on attenuating EIMD biomarkersresponse, and inflammatory and perceptual responses suggest that compression may improve physiological and psychological recovery. <p><a href="https://greenmedinfo.com/article/influence-different-types-compression-garments-exercise-induced-muscle-damage-" target="_blank">read more</a></p> https://greenmedinfo.com/article/influence-different-types-compression-garments-exercise-induced-muscle-damage-#comments Muscle Damage: Exercise-Induced Exercise Compression Clothing Human Study Thu, 08 Mar 2018 01:37:30 +0000 greenmedinfo 160882 at https://greenmedinfo.com Runners may improve variables related to endurance performance by wearing compression clothing. https://greenmedinfo.com/article/runners-may-improve-variables-related-endurance-performance-wearing-compressio PMID:  Sports Med. 2016 Dec ;46(12):1939-1952. PMID: 27106555 Abstract Title:  Is There Evidence that Runners can Benefit from Wearing Compression Clothing? Abstract:  BACKGROUND: Runners at various levels of performance and specializing in different events (from 800 m to marathons) wear compression socks, sleeves, shorts, and/or tights in attempt to improve their performance and facilitate recovery. Recently, a number of publications reporting contradictory results with regard to the influence of compression garments in this context have appeared.OBJECTIVES: To assess original research on the effects of compression clothing (socks, calf sleeves, shorts, and tights) on running performance and recovery.METHOD: A computerized research of the electronic databases PubMed, MEDLINE, SPORTDiscus, and Web of Science was performed in September of 2015, and the relevant articles published in peer-reviewed journals were thus identified rated using the Physiotherapy Evidence Database (PEDro) Scale. Studies examining effects on physiological, psychological, and/or biomechanical parameters during or after running were included, and means and measures of variability for the outcome employed to calculate Hedges&#039;g effect size and associated 95 % confidence intervals for comparison of experimental (compression) and control (non-compression) trials.RESULTS: Compression garments exerted no statistically significant mean effects on running performance (times for a (half) marathon, 15-km trail running, 5- and 10-km runs, and 400-m sprint), maximal and submaximal oxygen uptake, blood lactate concentrations, blood gas kinetics, cardiac parameters (including heart rate, cardiac output, cardiac index, and stroke volume), body and perceived temperature, or the performance of strength-related tasks after running. Small positive effect sizes were calculated for the time to exhaustion (in incremental or step tests), running economy (including biomechanical variables), clearance of blood lactate, perceived exertion, maximal voluntary isometric contraction and peak leg muscle power immediately after running, and markers of muscle damage and inflammation. The body core temperature was moderately affected by compression, while the effect size values for post-exercise leg soreness and the delay in onset of muscle fatigue indicated large positive effects.CONCLUSION: Our present findings suggest that by wearing compression clothing, runners may improve variables related to endurance performance (i.e., time to exhaustion) slightly, due to improvements in running economy, biomechanical variables, perception, and muscle temperature. They should also benefit from reduced muscle pain, damage, and inflammation. <p><a href="https://greenmedinfo.com/article/runners-may-improve-variables-related-endurance-performance-wearing-compressio" target="_blank">read more</a></p> https://greenmedinfo.com/article/runners-may-improve-variables-related-endurance-performance-wearing-compressio#comments Athletic Performance Exercise: Running Compression Clothing Review Thu, 08 Mar 2018 01:19:37 +0000 greenmedinfo 160881 at https://greenmedinfo.com The application of compression clothing may aid in the recovery of exercise induced muscle damage. https://greenmedinfo.com/article/application-compression-clothing-may-aid-recovery-exercise-induced-muscle-dama PMID:  Physiol Behav. 2016 Jan 1 ;153:133-48. Epub 2015 Oct 30. PMID: 26522739 Abstract Title:  Are compression garments effective for the recovery of exercise-induced muscle damage? A systematic review with meta-analysis. Abstract:  PURPOSE: The aim was to identify benefits of compression garments used for recovery of exercised-induced muscle damage.METHODS: Computer-based literature research was performed in September 2015 using four online databases: Medline (PubMed), Cochrane, WOS (Web Of Science) and Scopus. The analysis of risk of bias was completed in accordance with the Cochrane Collaboration Guidelines. Mean differences and 95% confidence intervals were calculated with Hedges&#039; g for continuous outcomes. A random effect meta-analysis model was used. Systematic differences (heterogeneity) were assessed with I(2) statistic.RESULTS: Most results obtained had high heterogeneity, thus their interpretation should be careful. Our findings showed that creatine kinase (standard mean difference=-0.02, 9 studies) was unaffected when using compression garments for recovery purposes. In contrast, blood lactate concentration was increased (standard mean difference=0.98, 5 studies). Applying compression reduced lactate dehydrogenase (standard mean difference=-0.52, 2 studies), muscle swelling (standard mean difference=-0.73, 5 studies) and perceptual measurements (standard mean difference=-0.43, 15 studies). Analyses of power (standard mean difference=1.63, 5 studies) and strength (standard mean difference=1.18, 8 studies) indicate faster recovery of muscle function after exercise.CONCLUSIONS: These results suggest that the application of compression clothing may aid in the recovery of exercise induced muscle damage, although the findings need corroboration. <p><a href="https://greenmedinfo.com/article/application-compression-clothing-may-aid-recovery-exercise-induced-muscle-dama" target="_blank">read more</a></p> https://greenmedinfo.com/article/application-compression-clothing-may-aid-recovery-exercise-induced-muscle-dama#comments Muscle Damage: Exercise-Induced Exercise Compression Clothing Meta Analysis Review Thu, 08 Mar 2018 02:34:43 +0000 greenmedinfo 160887 at https://greenmedinfo.com The current data demonstrated that wearing whole-body compression garments likely increased physical performance. https://greenmedinfo.com/article/current-data-demonstrated-wearing-whole-body-compression-garments-likely-incre PMID:  J Strength Cond Res. 2010 Jul ;24(7):1901-10. PMID: 20555284 Abstract Title:  The effects of whole-body compression garments on prolonged high-intensity intermittent exercise. Abstract:  The current study investigated the effects of wearing whole-body compression garments (WBCGs) on prolonged high-intensity intermittent exercise (PHIIE) performance. Eight male team-sport athletes ([X +/- SD] 20.6 +/- 1.2 years; 72.9 +/- 5.9 kg; 57.5 +/- 3.7 ml.kg.min) completed a prescribed 45-minute PHIIE protocol on a nonmotorized treadmill in randomly assigned WBCG and control (typical soccer apparel) conditions. Subjects were given verbal and visual cues for movement categories, and they followed set target speeds, except when instructed of a variable run or sprint where the aim was to run as fast as possible. Total distance, velocity-specific distance, and high-intensity self-paced running speeds were taken as performance indicators. Heart rate, VO(2), tissue oxygenation index (TOI), and tissue hemoglobin index (nTHi) were continuously monitored across the protocol. Blood-lactate concentration ([BLa(-)]) was measured every 15 minutes. Magnitude-based inferences suggested that wearing WBCGs provided moderate strength likely improvements in total distance covered (5.42 +/- 0.63 vs. 5.88 +/- 0.64 km; 88:10:2%; and eta = 0.6) and low-intensity activity distance (4.21 +/- 0.51 vs. 4.56 +/- 0.57 km; 83:14:3%; and eta = 0.6) compared with the control. A similar likely increase was also observed in the average TOI of the WBCG condition (53.5 +/- 8.3% vs. 55.8 +/- 7.2%; 87:11:2%; and eta = 0.6). The current data demonstrated that wearing WBCGs likely increased physical performance, possibly because of improvements in muscle oxygenation and associated metabolic benefits. Therefore, wearing WBCGs during PHIIE may benefit the physical performance of team-sport athletes by likely metabolic changes within the muscle between high-intensity efforts. <p><a href="https://greenmedinfo.com/article/current-data-demonstrated-wearing-whole-body-compression-garments-likely-incre" target="_blank">read more</a></p> https://greenmedinfo.com/article/current-data-demonstrated-wearing-whole-body-compression-garments-likely-incre#comments Exercise Compression Clothing Human Study Thu, 08 Mar 2018 21:33:06 +0000 greenmedinfo 160911 at https://greenmedinfo.com The current findings suggest that compression may assist in perceptual recovery from manual-labour exercise. https://greenmedinfo.com/article/current-findings-suggest-compression-may-assist-perceptual-recovery-manual-lab PMID:  Appl Physiol Nutr Metab. 2016 Feb ;41(2):125-32. Epub 2016 Jan 16. PMID: 26778138 Abstract Title:  The effects of compression garments on performance of prolonged manual-labour exercise and recovery. Abstract:  This study investigated the effects of wearing compression garments during and 24 h following a 4-h exercise protocol simulating manual-labour tasks. Ten physically trained male participants, familiar with labouring activities, undertook 4 h of work tasks characteristic of industrial workplaces. Participants completed 2 testing sessions, separated by at least 1 week. In the experimental condition, participants wore a full-length compression top and compression shorts during the exercise protocol and overnight recovery, with normal work clothes worn in the control condition. Testing for serum creatine kinase and C-reactive protein, handgrip strength, knee flexion and extension torque, muscle stiffness, perceived muscle soreness and fatigue as well as heart rate and rating of perceived exertion (RPE) responses to 4-min cycling were performed before, following, and 24 h after exercise. Creatine kinase, muscle soreness, and rating of perceived fatigue increased following the exercise protocol (p0.05). Knee extension torque was significantly higher in the control condition at 24 h postexercise (3.1%± 5.4% change; compression: 2.2% ± 11.1% change), although no other variables were different between conditions at any time. However, compression demonstrated a moderate-large effect (d&gt;0.60) to reduce perceived muscle soreness, fatigue, and RPE from standardised warm-up at 24 h postexercise. The current findings suggest that compression may assist in perceptual recovery from manual-labour exercise with implications for the ability to perform subsequent work bouts. <p><a href="https://greenmedinfo.com/article/current-findings-suggest-compression-may-assist-perceptual-recovery-manual-lab" target="_blank">read more</a></p> https://greenmedinfo.com/article/current-findings-suggest-compression-may-assist-perceptual-recovery-manual-lab#comments Exercise Compression Clothing Human Study Thu, 08 Mar 2018 19:51:57 +0000 greenmedinfo 160896 at https://greenmedinfo.com The effects of wearing lower body compression garments during a cycling performance test. https://greenmedinfo.com/article/effects-wearing-lower-body-compression-garments-during-cycling-performance-tes PMID:  Int J Sports Physiol Perform. 2013 May ;8(3):300-6. Epub 2012 Sep 19. PMID: 23006643 Abstract Title:  The effects of wearing lower body compression garments during a cycling performance test. Abstract:  PURPOSE: Compression garments have been commonly used in a medical setting as a method to promote blood flow. Increases in blood flow during exercise may aid in the delivery of oxygen to the exercising muscles and, subsequently, enhance performance. The aim of the current study was to investigate the effect of wearing lower body compression garments during a cycling test.METHODS: Twelve highly trained cyclists (mean± SD age 30 ± 6 y, mass 75.6 ± 5.8 kg, VO2peak 66.6 ± 3.4 mL · kg-1 · min-1) performed two 30-min cycling bouts on a cycle ergometer in a randomized, crossover design. During exercise, either full-length lower body compression garments (COMP) or above-knee cycling shorts (CON) were worn. Cycling bouts involved 15 min at a fixed workload (70% of VO2max power) followed by a 15-min time trial. Heart rate (HR) and blood lactate (BL) were measured during the fixed-intensity component of the cycling bout to determine the physiological effect of the garments. Calf girth (CG), thigh girth (TG) and perceived soreness (PS) were measured preexercise and postexercise.RESULTS: COMP produced a trivial effect on mean power output (ES = .14) compared with CON (mean± 95% CI 1.3 ±1.0). COMP was also associated with a lower HR during the fixed-workload section of the test (-2.6% ± 2.3%, ES = -.38). There were no differences between groups for BL, CG, TG, and PS.CONCLUSION: Wearing compression garments during cycling may result in trivial performance improvements of ~1% and may enhance oxygen delivery to the exercising muscles. <p><a href="https://greenmedinfo.com/article/effects-wearing-lower-body-compression-garments-during-cycling-performance-tes" target="_blank">read more</a></p> https://greenmedinfo.com/article/effects-wearing-lower-body-compression-garments-during-cycling-performance-tes#comments Exercise Exercise: Cycling Compression Clothing Human Study Thu, 08 Mar 2018 21:07:55 +0000 greenmedinfo 160907 at https://greenmedinfo.com The results of the present study support the use of graduated compression tights for maintenance of lower limb muscle power after submaximal endurance running. https://greenmedinfo.com/article/results-present-study-support-use-graduated-compression-tights-maintenance-low PMID:  J Strength Cond Res. 2013 Apr ;27(4):1067-73. PMID: 22692109 Abstract Title:  The effect of graduated compression tights, compared with running shorts, on counter movement jump performance before and after submaximal running. Abstract:  The purpose of this study was to determine if wearing graduated compression tights, compared with loose fitting running shorts, would increase and or help sustain counter movement jump (CMJ) height after submaximal running. Fourteen competitive runners (6 women and 8 men) participated in this study. The subjects&#039; mean (±SD) for age, height, body mass, percent body fat, resting heart rate, and maximal heart rate were 28.2 ± 14.0 years, 174.7 ± 8.6 cm, 70.2 ± 14.9 kg, 15.5 ± 8.1%, 67.2 ± 7.4 b.min, and 186.5 ± 9.5 b.min, respectively. During testing, subjects wore a Polar RS400 heart rate monitor. Each trialconsisted of 15 minutes of continual treadmill running with 5 minutes performed at 50%, 70%, and 85% of the subject&#039;s heart rate reserve. Using a Vertec vertical leaper, each subject performed 3 CMJ, both pre- and postrun trials, with the mean value used to measure relative leg power. In addition tothe CMJ height data, each subject rated their level of perceived exertion (RPE), and their comfort level, after the postrun trials. The mean postrun CMJ height in graduated compression tights of 60.3 ± 19.4 cm was significantly greater (at the p<p><a href="https://greenmedinfo.com/article/results-present-study-support-use-graduated-compression-tights-maintenance-low" target="_blank">read more</a></p> https://greenmedinfo.com/article/results-present-study-support-use-graduated-compression-tights-maintenance-low#comments Exercise: Running Compression Clothing Human Study Thu, 08 Mar 2018 21:21:13 +0000 greenmedinfo 160909 at https://greenmedinfo.com The results of this study indicate that the wearing of compression garments may augment the active recovery process after high intensity running. https://greenmedinfo.com/article/results-study-indicate-wearing-compression-garments-may-augment-active-recover PMID:  J Strength Cond Res. 2011 Dec ;25(12):3264-8. PMID: 22082795 Abstract Title:  Do compression garments enhance the active recovery process after high-intensity running? Abstract:  Lovell, DI, Mason, DG, Delphinus, EM, and McLellan, CP. Do compression garments enhance the active recovery process after high-intensity running? J Strength Cond Res 25(12): 3264-3268, 2011-This study examined the effect of wearing waist-to-ankle compression garments (CGs) on active recovery after moderate- and high-intensity submaximal treadmill running. Twenty-five male semiprofessional rugby league players performed two 30-minute treadmill runs comprising of six 5-minute stages at 6 km·h, 10 km·h, approximately 85% VO(2)max, 6 km·h as a recovery stage followed by approximately 85% VO(2)max and 6 km·h wearing either CGs or regular running shorts in a randomized counterbalanced order with each person acting as his own control. All stages were followed by 30 seconds of rest during which a blood sample was collected to determine blood pH and blood lactate concentration [La]. Expired gases and heart rate (HR) were measured during the submaximal treadmill tests to determine metabolic variables with the average of the last 2 minutes used for data analysis. The HR and [La] werelower (p ≤ 0.05) after the first and second 6 km·h recovery bouts when wearing CGs compared with when wearing running shorts. The respiratory exchange ratio (RER) was higher and [La] lower (p ≤ 0.05) after the 10 km·h stage, and only RER was higher after both 85% VO(2)max stages when wearingCGs compared with when wearing running shorts. There was no difference in blood pH at any exercise stage when wearing the CGs and running shorts. The results of this study indicate that the wearing of CGs may augment the active recovery process in reducing [La] and HR after high-intensity exercise but not effect blood pH. The ability to reduce [La] and HR has important consequences for many sports that are intermittent in nature and consist of repeated bouts of high-intensity exercise interspersed with periods of low-intensity exercise or recovery. <p><a href="https://greenmedinfo.com/article/results-study-indicate-wearing-compression-garments-may-augment-active-recover" target="_blank">read more</a></p> https://greenmedinfo.com/article/results-study-indicate-wearing-compression-garments-may-augment-active-recover#comments Exercise: Running Compression Clothing Human Study Thu, 08 Mar 2018 21:26:38 +0000 greenmedinfo 160910 at https://greenmedinfo.com These results indicate that compression garments are effective in enhancing recovery from muscle damage. https://greenmedinfo.com/article/these-results-indicate-compression-garments-are-effective-enhancing-recovery-m PMID:  Br J Sports Med. 2014 Sep ;48(18):1340-6. Epub 2013 Jun 11. PMID: 23757486 Abstract Title:  Compression garments and recovery from exercise-induced muscle damage: a meta-analysis. Abstract:  The purpose of the study was to determine the effects of compression garments on recovery following damaging exercise. A systematic review and meta-analysis was conducted using studies that evaluated the efficacy of compression garments on measures of delayed onset muscle soreness (DOMS), muscular strength, muscular power and creatine kinase (CK). Studies were extracted from a literature search of online databases. Data were extracted from 12 studies, where variables were measured at baseline and at 24 or 48 or 72 h postexercise. Analysis of pooled data indicated that the use of compression garments had a moderate effect in reducing the severity of DOMS (Hedges&#039; g=0.403, 95% CI 0.236 to 0.569, p<p><a href="https://greenmedinfo.com/article/these-results-indicate-compression-garments-are-effective-enhancing-recovery-m" target="_blank">read more</a></p> https://greenmedinfo.com/article/these-results-indicate-compression-garments-are-effective-enhancing-recovery-m#comments Muscle Damage: Exercise-Induced Exercise Compression Clothing Meta Analysis Review Thu, 08 Mar 2018 20:40:17 +0000 greenmedinfo 160903 at https://greenmedinfo.com This study has demonstrated that lower-limb compression garments may lower the effort perception associated with 400-m performance. https://greenmedinfo.com/article/study-has-demonstrated-lower-limb-compression-garments-may-lower-effort-percep PMID:  J Strength Cond Res. 2013 Mar ;27(3):669-76. PMID: 22592172 Abstract Title:  Effect of lower-limb compression clothing on 400-m sprint performance. Abstract:  This study investigated the effects of wearing a variety of lower-limb compression garments on 400-m sprint performance. Eleven 400-m male runners (23.7± 5.7 years, 1.78 ± 0.08 m, and 75.3 ± 10.0 kg) completed six, 400-m running tests on an outdoor, all-weather running track on separate occasions. The participants completed 2 runs with long-length lower-limb compression garments (LG; hip-to-ankle), a combination of short-length lower-limb compression garments (SG; hip-to-knee) with calf compression sleeves (ankle-to-knee), or without compression garments (CON; shorts), in a randomized, counterbalanced order. Overall lap time and 100-m split times, heart rate, and ratings of perceived exertion (RPEs) were measured during the 400-m run. Blood lactate concentration, visual analogue scales for perceived soreness, feeling and arousal, and scales for perceived comfort and tightness when wearing compression garments, were assessed before (preexercise, post-warm-up) and after 400-m performance (post, 4 minutes postexercise, after a warm-down). Statistical analysis revealed no differences between conditions in overall 400-m performance, 100-m split times, or blood lactate concentration (p&gt;0.05), although there was a trend for an increased rate of blood lactate clearance when wearing compression garments. A significantly lower RPE (p&gt;0.05) was however observed during LG (13.8± 0.9) and SG (13.4 ± 1.1) when compared with CON (14.0 ± 1.0). This study has demonstrated that lower-limb compression garments may lower the effort perception associated with 400-m performance, despite there being no differences in overall athletic performance. <p><a href="https://greenmedinfo.com/article/study-has-demonstrated-lower-limb-compression-garments-may-lower-effort-percep" target="_blank">read more</a></p> https://greenmedinfo.com/article/study-has-demonstrated-lower-limb-compression-garments-may-lower-effort-percep#comments Exercise: Running Compression Clothing Human Study Thu, 08 Mar 2018 21:17:54 +0000 greenmedinfo 160908 at https://greenmedinfo.com Wearing a compression garment after resistance exercise facilitates the recovery of muscular strength. https://greenmedinfo.com/article/wearing-compression-garment-after-resistance-exercise-facilitates-recovery-mus PMID:  Med Sci Sports Exerc. 2014 Dec ;46(12):2265-70. PMID: 25003778 Abstract Title:  Compression garment promotes muscular strength recovery after resistance exercise. Abstract:  PURPOSE: This study aimed to investigate the effects of wearing a compression garment (CG) for 24 h on changes in muscular strength and blood parameters over time after resistance exercise.METHODS: Nine trained men conducted resistance exercises (10 repetitions of 3-5 sets at 70% of one-repetition maximum (1RM) for nine exercises) in two trials, wearing either a CG or a normal garment (CON) for 24 h after exercise. Recovery of muscular strength, blood parameters, muscle soreness, and upper arm and thigh circumference were compared between the trials.RESULTS: Both trials showed decreases in maximal strength after the exercise (P<p><a href="https://greenmedinfo.com/article/wearing-compression-garment-after-resistance-exercise-facilitates-recovery-mus" target="_blank">read more</a></p> https://greenmedinfo.com/article/wearing-compression-garment-after-resistance-exercise-facilitates-recovery-mus#comments Exercise: Resistance Training Compression Clothing Human Study Thu, 08 Mar 2018 20:07:55 +0000 greenmedinfo 160898 at https://greenmedinfo.com Wearing compressive garments during recovery is likely to be worthwhile. https://greenmedinfo.com/article/wearing-compressive-garments-during-recovery-likely-be-worthwhile PMID:  J Strength Cond Res. 2012 Nov ;26(11):2975-82. PMID: 23007487 Abstract Title:  Effect of compression garments on short-term recovery of repeated sprint and 3-km running performance in rugby union players. Abstract:  The aim of this study was to investigate whether wearing compression garments during recovery improved subsequent repeated sprint and 3-km run performance. In a randomized single-blind crossover study, 22 well-trained male rugby union players (mean± SD: age 20.1 ± 2.1 years, body mass 88.4 ± 8.8 kg) were given a full-leg length compressive garment (76% Meryl Elastane, 24% Lycra) or a similar-looking noncompressive placebo garment (92% Polyamide, 8% Lycra) to wear continuously for 24 hours after performing a series of circuits developed tosimulate a rugby game. After the 24-hour recovery, garments were removed and a 40-m repeated sprint test (10 sprints at 30-second intervals), followed 10 minutes later by a 3-km run, was completed. One week later, the groups were reversed and testing repeated. Relative to the placebo, wearing the compressive garment decreased time to complete the 3 km by 2.0% ± 1.9% (mean ± 90% confidence interval). Additionally, average sprint times improved (1.2% ± 1.5%) and fatigue was diminished (-15.8% ± 26.1%) during the repeated sprint test in the compression group compared with the placebo group. Delayed onset muscle soreness was substantially lower in the compression group compared with the placebo group, 48 hours after testing. Wearing compressive garments during recovery is likely to be worthwhile, and very unlikely to be harmful for well-trained rugby union players. <p><a href="https://greenmedinfo.com/article/wearing-compressive-garments-during-recovery-likely-be-worthwhile" target="_blank">read more</a></p> https://greenmedinfo.com/article/wearing-compressive-garments-during-recovery-likely-be-worthwhile#comments Exercise Exercise: Running Compression Clothing Human Study Thu, 08 Mar 2018 21:00:39 +0000 greenmedinfo 160905 at https://greenmedinfo.com