一项简单易行的 16 周颈部力量训练计划可改善年轻足球运动员胸部受扰后的头部运动学。

An Accessible, 16-Week Neck Strength Training Program Improves Head Kinematics Following Chest Perturbation in Young Soccer Athletes.

出版信息

J Sport Rehabil. 2021 Jul 30;30(8):1158-1165. doi: 10.1123/jsr.2020-0537.

DOI:10.1123/jsr.2020-0537

Abstract

CONTEXT

Neck size and strength may be associated with head kinematics and concussion risks. However, there is a paucity of research examining neck strengthening and head kinematics in youths. In addition, neck training is likely lacking in youth sport due to a perceived inadequacy of equipment or time.

OBJECTIVE

Examine neck training effects with minimal equipment on neck strength and head kinematics following chest perturbations in youth athletes.

DESIGN

Single-group, pretest-posttest case series.

SETTING

Athlete training center.

PARTICIPANTS

Twenty-five (14 men and 11 women) youth soccer athletes (9.8 [1.5] y).

INTERVENTION

Sixteen weeks of twice-weekly neck-focused resistance training utilizing bands, body weight, and manual resistance.

MAIN OUTCOME MEASURES

Head kinematics (angular range of motion, peak anterior-posterior linear acceleration, and peak resultant linear acceleration) were measured by an inertial motion unit fixed to the apex of the head during torso perturbations. Neck-flexion and extension strength were assessed using weights placed on the forehead and a plate-loaded neck harness, respectively. Neck length and circumference were measured via measuring tape.

RESULTS

Neck extension (increase in median values for all: +4.5 kg, +100%, P < .001; females: +4.5 kg, +100%, P = .002; males: +2.2 kg, +36%, P = .003) and flexion (all: +3.6 kg, +114%, P < .001; females: +3.6 kg, +114%, P = .004; males: +3.6 kg, +114%, P = .001) strength increased following the intervention. Men and women both experienced reduced perturbation-induced head pitch (all: -84%, P < .001). However, peak resultant linear acceleration decreased in the female (-53%, P = .004), but not male (-31%, P = 1.0) subgroup. Preintervention peak resultant linear acceleration and extension strength (R2 = .21, P = .033) were the closest-to-significance associations between head kinematics and strength.

CONCLUSIONS

Young athletes can improve neck strength and reduce perturbation-induced head kinematics following a 16-week neck strengthening program. However, further research is needed to determine the effect of improved strength and head stabilization on concussion injury rates.

摘要

背景

颈部大小和力量可能与头部运动学和脑震荡风险有关。然而，很少有研究检查青少年的颈部强化和头部运动学。此外，由于设备或时间不足，颈部训练可能在青年运动中缺乏。

目的

使用最少的设备检查颈部训练对青少年运动员胸部扰动后颈部力量和头部运动学的影响。

设计

单组、前后测试病例系列。

地点

运动员训练中心。

参与者

25 名（14 名男性和 11 名女性）青年足球运动员（9.8[1.5]岁）。

干预措施

每周两次的颈部焦点阻力训练，使用带、体重和手动阻力。

主要结果测量

头部运动学（角运动范围、前-后线性加速度峰值和峰值合成线性加速度）通过惯性运动单元在头部顶点固定在躯干扰动期间进行测量。颈部屈伸强度分别用放在额头上的重量和带负荷的颈部吊带进行评估。颈部长度和周长通过卷尺测量。

结果

颈部伸展（所有中位数增加：+4.5 公斤，+100%，P<.001；女性：+4.5 公斤，+100%，P=.002；男性：+2.2 公斤，+36%，P=.003）和屈曲（所有：+3.6 公斤，+114%，P<.001；女性：+3.6 公斤，+114%，P=.004；男性：+3.6 公斤，+114%，P=.001）强度在干预后增加。男性和女性都经历了减少扰动引起的头部俯仰（所有：-84%，P<.001）。然而，女性的峰值合成线性加速度（-53%，P=.004）而非男性（-31%，P=1.0）亚组降低。干预前的峰值合成线性加速度和伸展强度（R2=.21，P=.033）是头部运动学和强度之间最接近显著关联的指标。