Thursday 12 May 2016

New paper: Physical Predictors of Skeleton Performance

This week I had another paper published. This paper was part of the PhD studentship of Dr. Steffi Colyer in partnership with Bath University, GB Skeleton, UK Sport and my previous role at the BOA.

In this work we looked at the testing battery for strength and power assessment of bob skeleton athletes and identified predictors of skeleton performance. The analysis approach revealed that 3 tests scores can obtain a valid and stable prediction of bob skeleton start performance. More work from Dr Colyer's excellent PhD will be published soon, so follow her work as I am sure more applied approaches in other sports will be followed in the next years. I enjoyed working with a great group of colleagues, athletes and coaches for this project and the publication reminded me of how fortunate I was in my time in the UK.


This project is a good example of how some applied sports science projects can advance understanding of specific performance issues as well as provide meaningful advice for the coaches and practitioners involved in this particular sport.

The abstracts is below:


 2016 May 1. [Epub ahead of print]

Physical Predictors of Elite Skeleton Start Performance.

Abstract

PURPOSE: 

An extensive battery of physical tests is typically employed to evaluate athletic status and/or development often resulting in a multitude of output variables. We aimed to identify independent physical predictors of elite skeleton start performance overcoming the general problem of practitioners employing multiple tests with little knowledge of their predictive utility.

METHODS: 

Multiple two-day testing sessions were undertaken by 13 high-level skeleton athletes across a 24-week training season and consisted of flexibility, dry-land push-track, sprint, countermovement jump and leg press tests. To reduce the large number of output variables to independent factors, principal component analysis was conducted. The variable most strongly correlated to each component was entered into a stepwise multiple regression analysis and K-fold validation assessed model stability.

RESULTS: 

Principal component analysis revealed three components underlying the physical variables, which represented sprint ability, lower limb power and strength-power characteristics. Three variables, which represented these components (unresisted 15-m sprint time, 0-kg jump height and leg press force at peak power, respectively), significantly contributed (P < 0.01) to the prediction (R2 = 0.86, 1.52% standard error of estimate) of start performance (15-m sled velocity). Finally, the K-fold validation revealed the model to be stable (predicted vs. actual R2 = 0.77; 1.97% standard error of estimate).

CONCLUSIONS: 

Only three physical test scores were needed to obtain a valid and stable prediction of skeleton start ability. This method of isolating independent physical variables underlying performance could improve the validity and efficiency of athlete monitoring potentially benefitting sports scientists, coaches and athletes alike.
PMID:
 
27140284
 
[PubMed - as supplied by publisher]

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