穿着美式橄榄球服在高温下的感知反应。
Perceptual responses while wearing an American football uniform in the heat.
机构信息
Department of Kinesiology, University of Connecticut, Storrs, Mr Johnson is now at the Naval Health Research Center, San Diego, CA, USA.
出版信息
J Athl Train. 2010 Mar-Apr;45(2):107-16. doi: 10.4085/1062-6050-45.2.107.
CONTEXT
The protective equipment worn during American football has been shown to increase thermal strain; however, the perception of this increased heat has not been examined.
OBJECTIVE
To evaluate perceptual responses of American football players while wearing different uniforms during exercise in the heat and to evaluate how these responses may be used to monitor athlete safety.
DESIGN
Randomized controlled trial.
SETTING
Human Performance Laboratory.
PATIENTS OR OTHER PARTICIPANTS
Ten men with more than 3 years of competitive experience as football linemen (age = 23.8 +/- 1.3 years, height = 183.9 +/- 1.8 cm, mass = 117.4 +/- 3.5 kg, body fat = 30.1% +/- 1.7%) participated.
INTERVENTION(S): On 3 occasions in hot, humid (33 degrees C, 48%-49% relative humidity) environmental conditions, participants completed 10 minutes of strenuous repetitive box lifting (RBL), 10 minutes of seated rest, and up to 60 minutes of treadmill walking. At each trial, they wore a different uniform condition: control (CON) clothing comprising shorts, socks, and sneakers; partial (PART) National Football League (NFL) uniform comprising the uniform without helmet or shoulder pads; or full (FULL) NFL uniform. Exercise, meals, and hydration status were controlled.
MAIN OUTCOME MEASURE(S): Rectal temperature (T(re)), skin temperature (T(sk)), rating of perceived exertion (RPE), thermal perception (THM), perception of thirst (TST), and perception of muscle pain (MPN) were obtained for time points matched across trials.
RESULTS
Nineteen of the 30 trials ended before 60 minutes of treadmill walking as a result of participant exhaustion. Mean treadmill time was longer for the CON condition (51.7 +/- 13.4 minutes) than for the PART (43.1 +/- 15.6 minutes; t(9) = 3.092, P = .01) or the FULL (36.2 +/- 13.2 minutes; t(9) = 4.393, P = .002) conditions. Neck and forearm T(sk) increased between the initial time point and the end of exercise in the PART (33.6 +/- 0.9 degrees C and 35.0 +/- 0.6 degrees C, respectively; F(2,18) = 9.034, P < .001) and the FULL (33.4 +/- 0.9 degrees C and 35.2 +/- 0.6 degrees C, respectively; F(2,18) = 21.011, P = .002) conditions. Rate of T(re) rise was greater in the FULL (0.042 +/- 0.010 degrees C/min) than in the PART (0.034 +/- 0.006 degrees C/min) condition (F(2,27) = 10.69, P = .04). We found a relationship at the post-RBL and final time points between RPE and THM (r = 0.75, P < .001 and r = 0.59, P < .001, respectively), RPE and TST (r = 0.76, P < .001 and r = 0.61, P < .001, respectively), and RPE and MPN (r = 0.63, P < .001 and r = 0.64, P < .001, respectively). The RPE was greater at the end of exercise in the PART (17 +/- 2) and FULL (18 +/- 1) conditions than in the CON (15 +/- 3) condition (F(2,18) = 7.403, P = .005).
CONCLUSIONS
Although no differences in perceptual scales existed between the PART and FULL conditions, the T(sk) and rate of T(re) increase differed, indicating that football athletes find it difficult to perceptually rate exercise conditions as potentially dangerous hyperthermia develops. In addition, correlations between the perceptual scales further defined perceptual responses during exercise in the heat.
背景
美式橄榄球运动员所穿戴的防护装备会增加热应激;然而,人们尚未研究过这种增加的热量对他们的感知影响。
目的
评估美式橄榄球运动员在热环境下穿着不同制服进行运动时的感知反应,并评估这些反应如何用于监测运动员的安全。
设计
随机对照试验。
设置
人体性能实验室。
患者或其他参与者
10 名有超过 3 年橄榄球线卫比赛经验的男性(年龄=23.8±1.3 岁,身高=183.9±1.8cm,体重=117.4±3.5kg,体脂=30.1%±1.7%)参加了研究。
干预
在 3 次热、高湿(33℃,48%-49%相对湿度)环境条件下,参与者完成了 10 分钟的剧烈重复箱式举重(RBL)、10 分钟的坐姿休息和长达 60 分钟的跑步机步行。在每次试验中,他们穿着不同的制服条件:对照(CON)服装包括短裤、袜子和运动鞋;部分(PART)国家橄榄球联盟(NFL)制服不包括头盔或肩垫;或全(FULL)NFL 制服。控制了运动、膳食和水合状态。
主要观察指标
直肠温度(T(re))、皮肤温度(T(sk))、感知用力(RPE)、热感觉(THM)、口渴感(TST)和肌肉疼痛感知(MPN)在匹配试验的时间点上获得。
结果
由于参与者疲劳,19 次试验中的 30 次在 60 分钟的跑步机步行前结束。CON 条件的平均跑步机时间(51.7±13.4 分钟)长于 PART(43.1±15.6 分钟;t(9)=3.092,P=.01)或 FULL(36.2±13.2 分钟;t(9)=4.393,P=.002)条件。PART(33.6±0.9°C 和 35.0±0.6°C,分别;F(2,18)=9.034,P<.001)和 FULL(33.4±0.9°C 和 35.2±0.6°C,分别;F(2,18)=21.011,P=.002)条件下,颈部和前臂 T(sk)在 RBL 初始时间点和运动结束时增加。T(re)上升率在 FULL(0.042±0.010°C/min)条件下大于 PART(0.034±0.006°C/min)条件(F(2,27)=10.69,P=.04)。我们在 RBL 后和最后时间点发现,RPE 和 THM(r=0.75,P<.001 和 r=0.59,P<.001,分别)、RPE 和 TST(r=0.76,P<.001 和 r=0.61,P<.001,分别)以及 RPE 和 MPN(r=0.63,P<.001 和 r=0.64,P<.001,分别)之间存在关系。PART(17±2)和 FULL(18±1)条件下的 RPE 在运动结束时大于 CON(15±3)条件(F(2,18)=7.403,P=.005)。
结论
尽管 PART 和 FULL 条件之间的感知量表没有差异,但 T(sk)和 T(re)上升率有所不同,这表明橄榄球运动员发现很难在潜在的危险热应激发展时感知到运动条件的危险程度。此外,感知量表之间的相关性进一步定义了热环境下运动时的感知反应。
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