Sports Coaching College, Beijing Sport University, Beijing, BJ, China.
Sports, Exercise and Brain Sciences Laboratory, Beijing Sport University, Beijing, BJ, China.
Int J Sports Physiol Perform. 2024 Aug 23;19(10):1107-1114. doi: 10.1123/ijspp.2024-0041. Print 2024 Oct 1.
To investigate the effects of transcranial direct-current stimulation (tDCS) applied over the primary motor cortex (M1) and cerebellum on balance control and shooting accuracy in elite ice hockey players.
Twenty-one elite ice hockey players underwent anodal tDCS over the M1 (a-tDCSM1), anodal tDCS over the cerebellum (a-tDCSCB), concurrent dual-site anodal tDCS over the M1 and the cerebellum (a-tDCSM1+CB), and sham stimulation (tDCSSHAM). Before and after receiving tDCS (2 mA for 15 min), participants completed an ice hockey shooting-accuracy test, Pro-Kin balance test (includes stance test and proprioceptive assessment), and Y-balance test in randomized order.
For static balance performance, the ellipse area in the 2-legged stance with eyes open and the 1-legged stance with the dominant leg significantly improved following a-tDCSM1, a-tDCSCB, and concurrent dual-site a-tDCSM1+CB, compared with tDCSSHAM (all P < .05, Cohen d = 0.64-1.06). In dynamic balance performance, the average trace error of the proprioceptive assessment and the composite score of the Y-balance test with the dominant leg significantly improved following a-tDCSM1 and concurrent dual-site a-tDCSM1+CB (all P < .05, Cohen d = 0.77-1.00). For the ice hockey shooting-accuracy test, shooting-accuracy while standing on the unstable platform significantly increased following a-tDCSM1 (P = .010, Cohen d = 0.81) and a-tDCSCB (P = .010, Cohen d = 0.92) compared with tDCSSHAM.
tDCS could potentially be a valuable tool in enhancing static and dynamic balance and shooting accuracy on unstable platforms in elite ice hockey players.
研究经颅直流电刺激(tDCS)作用于初级运动皮层(M1)和小脑对精英冰球运动员平衡控制和射门准确性的影响。
21 名精英冰球运动员接受了经颅直流电刺激 M1(a-tDCSM1)、小脑(a-tDCSCB)、M1 和小脑同时双部位阳极刺激(a-tDCSM1+CB)和假刺激(tDCSSHAM)。在接受 tDCS(2 mA 15 分钟)前后,参与者以随机顺序完成冰球射门准确性测试、Pro-Kin 平衡测试(包括站立测试和本体感觉评估)和 Y 平衡测试。
对于静态平衡表现,在睁眼双腿站立和主导腿单腿站立时,椭圆面积在 a-tDCSM1、a-tDCSCB 和同时双部位 a-tDCSM1+CB 后显著改善,与 tDCSSHAM 相比(均 P <.05,Cohen d = 0.64-1.06)。在动态平衡表现中,本体感觉评估的平均轨迹误差和主导腿的 Y 平衡测试综合评分在 a-tDCSM1 和同时双部位 a-tDCSM1+CB 后显著改善(均 P <.05,Cohen d = 0.77-1.00)。对于冰球射门准确性测试,在不稳定平台上站立时的射门准确性在 a-tDCSM1(P =.010,Cohen d = 0.81)和 a-tDCSCB(P =.010,Cohen d = 0.92)后显著增加与 tDCSSHAM 相比。
tDCS 可能是增强精英冰球运动员在不稳定平台上的静态和动态平衡以及射门准确性的有价值工具。
