word count: 244 19Manuscript word count: 3256 20 17.1%). MIVC also tended to be higher at 60 h post (P=0.051; ES=0.85; 95% CI= −0.4 to 37 11.1%). MS was 26.5% lower in PCM cold vs. PCM warm at 36 h (P=0.02; ES=1.7; 95% CI= 38 −50.4 mm to −16.1 mm) and 24.3% lower at 60 h (P=0.039; ES=1.1; 95% CI= −26.9 mm to 39 −0.874 mm). There were no between condition differences in post-match CMJ height or 40 BAM+ (P>0.05). The BFQ revealed that players felt the PCM cold was more effective than the 41 PCM amb after the intervention (P=0.004). 42Conclusions: PCM cooling garments provide a practical means of delivering prolonged post-43 exercise cooling and thereby accelerating recovery in elite soccer players. 44 45
Post-exercise cryotherapy treatments are typically short duration interventions. This study examined the efficacy of prolonged cooling using phase change material (PCM) on strength loss and pain after eccentric exercise. Eight adults performed 120 bilateral eccentric quadriceps contractions (90% MVC). Immediately afterwards, frozen PCM packs (15°C) were placed over the quadriceps, with room temperature PCM packs on the contralateral quadriceps. Skin temperature was recorded continually (6 h PCM application). Isometric quadriceps strength and soreness were assessed before, 24, 48, 72 and 96 h post-exercise. The protocol was repeated 5 months later, with room temperature PCM applied to both legs. There were three treatments: legs treated with 15°C PCM packs (direct cooling), legs treated with room temperature PCM packs contralateral to the 15°C PCM packs (systemic cooling), and legs tested 5 months later both treated with room temperature PCM packs (control). Skin temperature was 9°C-10°C lower with direct cooling versus systemic cooling and control (P < 0.01). Strength loss and soreness were less (P < 0.05) with direct cooling versus systemic cooling and control (strength 101%, 94%, 93%, respectively; pain 1.0, 2.3, 2.7, respectively). Six hours of PCM cooling was well tolerated and reduced strength loss and pain after damaging exercise.
Purpose: To evaluate the effectiveness between cold-water immersion (CWI) and phase-change-material (PCM) cooling on intramuscular, core, and skin-temperature and cardiovascular responses. Methods: In a randomized, crossover design, 11 men completed 15 min of 15°C CWI to the umbilicus and 2-h recovery or 3 h of 15°C PCM covering the quadriceps and 1 h of recovery, separated by 24 h. Vastus lateralis intramuscular temperature at 1 and 3 cm, core and skin temperature, heart-rate variability, and thermal comfort were recorded at baseline and 15-min intervals throughout treatment and recovery. Results: Intramuscular temperature decreased (P < .001) during and after both treatments. A faster initial effect was observed from 15 min of CWI (Δ: 4.3°C [1.7°C] 1 cm; 5.5°C [2.1°C] 3 cm; P = .01). However, over time (2 h 15 min), greater effects were observed from prolonged PCM treatment (Δ: 4.2°C [1.9°C] 1 cm; 2.2°C [2.2°C] 3 cm; treatment × time, P = .0001). During the first hour of recovery from both treatments, intramuscular temperature was higher from CWI at 1 cm (P = .013) but not 3 cm. Core temperature deceased 0.25° (0.32°) from CWI (P = .001) and 0.28°C (0.27°C) from PCM (P = .0001), whereas heart-rate variability increased during both treatments (P = .001), with no differences between treatments. Conclusions: The magnitude of temperature reduction from CWI was comparable with PCM, but intramuscular temperature was decreased for longer during PCM. PCM cooling packs offer an alternative for delivering prolonged cooling whenever application of CWI is impractical while also exerting a central effect on core temperature and heart rate.
Prolonged cooling with phase change material enhances recovery and does not affect the subsequent repeated bout effect following exercise. European Journal of Applied Physiology, 120 (2). pp. 413-423.
The purpose of this study was to document recovery following a pitching performance and determine if prolonged post-game phase change material (PCM) cooling of the shoulder and forearm accelerates recovery. Methods: Strength, soreness and serum creatine kinase (CK) activity were assessed prior to, and on the two days following pitching performances in 16 college pitchers. Pitchers were randomized to receive either post-game PCM cooling packs on the shoulder and forearm, or no cooling (control). PCM packs were applied inside compression shirts and delivered cooling at a constant temperature of 15°C for 3 hours. Strength was assessed for shoulder internal rotation (IR), external rotation (ER), empty can test (EC) and grip. Results: Total pitch count was 60±16 for 23 PCM cooling games and 62±17 for 24 control games (P=.679). On the days following pitching IR strength (P=.006) and grip strength (P=.036) were higher in the PCM cooling group versus control. One day after pitching IR strength was 95±14% of baseline with PCM cooling versus 83±13% for control (P=.008, effect size d 0.91) and 107±9% versus 95±10% for grip strength (P=.022, effect size d 1.29). There was a trend for greater ER strength with PCM cooling (P=.091, effect size d 0.51). The EC strength was not impaired after pitching (P=.147) and was therefore unaffected by PCM cooling (P=.168). Elevations in soreness and CK were not different between treatments (Treatment by Time CK P=.139, shoulder soreness P=.885, forearm soreness P=.206). Conclusion: This is one of the first studies to document impairments in muscle function on the days following baseball pitching, and the first study showing a novel cryotherapy intervention that accelerates recovery of muscle function in baseball pitchers following a game. 2
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