Low Stiffness Dance Flooring Increases Peak Ankle Plantar Flexor Muscle Activation During a Ballet Jump.

IF 1.1 Q3 SPORT SCIENCES Journal of Dance Medicine & Science Pub Date : 2023-06-01 DOI:10.1177/1089313X231177180

James Hackney, Sarah Wilcoxon, Mary Holtmeier, Hanna Eaves, Gerard Harker, Amy Potthast

{"title":"Low Stiffness Dance Flooring Increases Peak Ankle Plantar Flexor Muscle Activation During a Ballet Jump.","authors":"James Hackney, Sarah Wilcoxon, Mary Holtmeier, Hanna Eaves, Gerard Harker, Amy Potthast","doi":"10.1177/1089313X231177180","DOIUrl":null,"url":null,"abstract":"Introduction: Research in court sports shows that factors which aid in extrinsic shock absorption, that is, flooring and footwear, can help reduce lower extremity injuries. However, since students and performers of ballet or most styles of contemporary dance cannot depend upon footwear, the only extrinsic factor to help them with shock absorption is flooring.Methods: We investigated whether doing sauté on a low stiffness dance floor produced a difference in EMG output of the vastus lateralis, gastrocnemius, of soleus compared to a high stiffness floor. Average and average peak amplitude EMG output from 18 dance students or active dancers performing 8 repetitions of sauté on a low stiffness floor (Harlequin® Woodspring) was compared to a maple hardwood floor on concreted subflooring.Results: The data showed a significant increase in average peak EMG muscle amplitude during jumping on the low stiffness floor compared to a high stiffness floor for the soleus muscle (P = .033) and a trend for increase average peak output for the medial gastrocnemius (P = .088).Conclusion: The difference in average peak amplitude of EMG output is explained through the difference in force absorption between floors. With the high stiffness floor, more force of the landing was returned to the dancers' legs, but the low stiffness floor absorbed some of the force of landing the jump, and therefore muscles needed to contribute more to maintain the same jump height. The force absorption characteristic of the low stiffness floor may decrease injury rates in dance through causing an adjustment in muscle velocity. Rapid eccentric muscle activity carries the greatest possibility of musculotendinous injury and is experienced in lower body muscles controlling all joints during impact absorption, which includes landing of jumps in dance. If a surface can decelerate the landing of a high velocity dance movement, it also decreases the musculotendinous demand for high velocity tension generation.","PeriodicalId":46421,"journal":{"name":"Journal of Dance Medicine & Science","volume":"27 2","pages":"99-106"},"PeriodicalIF":1.1000,"publicationDate":"2023-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Dance Medicine & Science","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1177/1089313X231177180","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"SPORT SCIENCES","Score":null,"Total":0}

引用次数: 0

Abstract

Introduction: Research in court sports shows that factors which aid in extrinsic shock absorption, that is, flooring and footwear, can help reduce lower extremity injuries. However, since students and performers of ballet or most styles of contemporary dance cannot depend upon footwear, the only extrinsic factor to help them with shock absorption is flooring.

Methods: We investigated whether doing sauté on a low stiffness dance floor produced a difference in EMG output of the vastus lateralis, gastrocnemius, of soleus compared to a high stiffness floor. Average and average peak amplitude EMG output from 18 dance students or active dancers performing 8 repetitions of sauté on a low stiffness floor (Harlequin® Woodspring) was compared to a maple hardwood floor on concreted subflooring.

Results: The data showed a significant increase in average peak EMG muscle amplitude during jumping on the low stiffness floor compared to a high stiffness floor for the soleus muscle (P = .033) and a trend for increase average peak output for the medial gastrocnemius (P = .088).

Conclusion: The difference in average peak amplitude of EMG output is explained through the difference in force absorption between floors. With the high stiffness floor, more force of the landing was returned to the dancers' legs, but the low stiffness floor absorbed some of the force of landing the jump, and therefore muscles needed to contribute more to maintain the same jump height. The force absorption characteristic of the low stiffness floor may decrease injury rates in dance through causing an adjustment in muscle velocity. Rapid eccentric muscle activity carries the greatest possibility of musculotendinous injury and is experienced in lower body muscles controlling all joints during impact absorption, which includes landing of jumps in dance. If a surface can decelerate the landing of a high velocity dance movement, it also decreases the musculotendinous demand for high velocity tension generation.

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

低刚度的舞蹈地板增加峰值脚踝足底屈肌激活在芭蕾舞跳。

导言:球场运动的研究表明，有助于吸收外部冲击的因素，即地板和鞋类，可以帮助减少下肢损伤。然而，由于芭蕾舞或大多数现代舞风格的学生和表演者不能依靠鞋子，唯一能帮助他们减震的外在因素是地板。方法:我们研究了在低刚度的舞池上做动作是否会产生股外侧肌、腓肠肌和比目鱼肌的肌电输出与高刚度舞池相比的差异。将18名舞蹈学生或活跃舞者在低刚度地板(Harlequin®Woodspring)上重复8次动作的平均和平均峰值肌电信号输出与混凝土底板上的枫木硬木地板进行比较。结果:数据显示，与高刚度地板相比，在低刚度地板上跳跃时，比目鱼肌的肌电图平均峰值振幅显著增加(P = 0.033)，腓肠肌内侧的平均峰值输出有增加的趋势(P = 0.088)。结论:肌电输出平均峰幅的差异可以通过楼层间的力吸收差异来解释。在高刚度地板上，更多的落地力返回到舞者的腿上，但低刚度地板吸收了一些落地力，因此肌肉需要贡献更多的力量来保持相同的跳跃高度。低刚度地板的力吸收特性可以通过引起肌肉速度的调整来降低舞蹈中的受伤率。快速偏心肌肉活动带来肌肉肌腱损伤的可能性最大，并且在冲击吸收过程中控制所有关节的下半身肌肉中经历，包括舞蹈中跳跃的着陆。如果一个表面可以减速一个高速舞蹈动作的着陆，它也减少了肌肉肌腱对高速张力产生的需求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文去求助

来源期刊

Journal of Dance Medicine & Science SPORT SCIENCES-

CiteScore

1.80

自引率

11.10%

发文量