精英雪橇运动员在整个世界杯巡回赛中的头部运动学和损伤分析。
Head Kinematics and Injury Analysis in Elite Bobsleigh Athletes Throughout a World Cup Tour.
机构信息
Department of Sports Medicine, United States Olympic & Paralympic Committee, Colorado Springs.
United States Coalition for the Prevention of Illness and Injury in Sport, Colorado Springs.
出版信息
J Athl Train. 2024 Jun 1;59(6):584-593. doi: 10.4085/1062-6050-0014.23.
CONTEXT
The neurocognitive health effects of repetitive head impacts have been examined in many sports. However, characterizations of head impacts for sliding-sport athletes are lacking.
OBJECTIVE
To describe head impact kinematics and injury epidemiology in elite athletes during the 2021-2022 Bobsleigh World Cup season.
DESIGN
Cross-sectional study.
SETTING
On-track training and competitions during the Bobsleigh World Cup season.
PATIENTS OR OTHER PARTICIPANTS
Twelve elite bobsleigh athletes (3 pilots [1 female], 9 push athletes [5 females]; age = 30 ± 5 years; female height and weight = 173 ± 8 cm and 75 ± 5 kg, respectively; male height and weight = 183 ± 5 cm and 101 ± 5 kg, respectively).
MAIN OUTCOME MEASURE(S): Athletes wore an accelerometer-enabled mouthguard to quantify 6-degrees-of-freedom head impact kinematics. Isometric absolute and relative neck strength, number of head acceleration events (HAEs), workload (J), peak linear velocity (m·s-1), peak angular velocity (rad·s-1), peak linear acceleration (g), and peak angular acceleration (rad·s-2) were derived from mouthguard manufacturer algorithms. Linear mixed-effect models tested the effects of sex (male versus female), setting (training versus competition), and position (pilot versus push athlete) on the kinematic variables.
RESULTS
A total of 1900 HAEs were recorded over 48 training and 53 competition days. No differences were found between the number of HAEs per run per athlete by sex (incidence rate ratio [IRR] = 0.82, P = .741), setting (IRR = 0.94, P = .325), or position (IRR = 1.64, P = .463). No sex differences were observed for workload (mean ± SD: males = 3.3 ± 2.2 J, females = 3.1 ± 1.9 J; P = .646), peak linear velocity (males = 1.1 ± 0.3 m·s-1, females = 1.1 ± 0.3 m·s-1; P = .706), peak angular velocity (males = 4.2 ± 2.1 rad·s-1, females = 4.7 ± 2.5 rad·s-1; P = .220), peak linear acceleration (male = 12.4 ± 3.9g, females = 11.9 ± 3.5g; P = .772), or peak angular acceleration (males = 610 ± 353 rad·s-2, females = 680 ± 423 rad·s-2; P = .547). Also, no effects of setting or position on any kinematic variables were seen. Male athletes had greater peak neck strength than female athletes for all neck movements, aside from right-side flexion (P = .085), but no sex differences were noted in relative neck strength.
CONCLUSIONS
We provide a foundational understanding of the repetitive HAEs that occur in bobsleigh athletes. Future authors should determine the effects of repetitive head impacts on neurocognitive function and mental health.
背景
重复性头部撞击对许多运动的神经认知健康影响已经过研究。然而,缺乏针对滑橇运动运动员头部撞击的特征描述。
目的
描述 2021-2022 年雪橇世界杯赛季中精英运动员的头部撞击运动学和损伤流行病学。
设计
横断面研究。
设置
在雪橇世界杯赛季的赛道训练和比赛中。
患者或其他参与者
12 名精英雪橇运动员(3 名飞行员[1 名女性],9 名推运动员[5 名女性];年龄=30±5 岁;女性身高和体重分别为 173±8cm 和 75±5kg,男性身高和体重分别为 183±5cm 和 101±5kg)。
主要观察指标
运动员佩戴带加速度计的牙套来量化 6 自由度头部撞击运动学。等长绝对和相对颈部力量、头部加速度事件(HAE)数量、工作量(J)、峰值线性速度(m·s-1)、峰值角速度(rad·s-1)、峰值线性加速度(g)和峰值角加速度(rad·s-2)由牙套制造商的算法得出。线性混合效应模型测试了性别(男性与女性)、设置(训练与比赛)和位置(飞行员与推运动员)对运动学变量的影响。
结果
在 48 次训练和 53 次比赛日中,共记录了 1900 次 HAE。按运动员每次运行的 HAE 数量,性别之间没有差异(发生率比[IRR] = 0.82,P =.741)、设置之间(IRR = 0.94,P =.325)或位置之间(IRR = 1.64,P =.463)。工作量(男性=3.3±2.2J,女性=3.1±1.9J;P=.646)、峰值线性速度(男性=1.1±0.3m·s-1,女性=1.1±0.3m·s-1;P=.706)、峰值角速度(男性=4.2±2.1rad·s-1,女性=4.7±2.5rad·s-1;P=.220)、峰值线性加速度(男性=12.4±3.9g,女性=11.9±3.5g;P=.772)或峰值角加速度(男性=610±353rad·s-2,女性=680±423rad·s-2;P=.547)之间没有性别差异。此外,设置或位置对任何运动学变量均无影响。与女性运动员相比,除右侧屈曲外(P=.085),所有颈部运动的男性运动员的峰值颈部力量均较大,但相对颈部力量没有性别差异。
结论
我们提供了对雪橇运动员重复性 HAE 发生情况的基本了解。未来的作者应确定重复性头部撞击对神经认知功能和心理健康的影响。
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