Relationships Between Internal Training Load in a Taper With Elite Weightlifting Performance Calculated Using Different Moving Average Methods

A simple and 2 different exponentially weighted moving average methods were used to investigate the relationships between internal training load and elite weightlifting performance. Training impulse data (sessional ratings of perceived exertion × training duration) were collected from 21 elite weigh...

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Bibliographic Details
Published in:International journal of sports physiology and performance 2021-03, Vol.16 (3), p.342-352
Main Authors: Coyne, Joseph O C, Newton, Robert U, Haff, G Gregory
Format: Article
Language:English
Subjects:
Adult
Athletes
Athletic Performance - physiology
Exercise
Humans
Stress, Physiological
Volatility
Weight Lifting - physiology
Workload
Young Adult
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Summary:A simple and 2 different exponentially weighted moving average methods were used to investigate the relationships between internal training load and elite weightlifting performance. Training impulse data (sessional ratings of perceived exertion × training duration) were collected from 21 elite weightlifters (age = 26.0 [3.2] y, height = 162.2 [11.3] cm, body mass = 72.2 [23.8] kg, previous 12-mo personal best total 96.3% [2.7%] of world record total) during the 8 weeks prior to the 2016 Olympic Games qualifying competition. The amount of training modified or cancelled due to injury/illness was also collected. The training stress balance (TSB) and acute to chronic workload ratio (ACWR) were calculated with the 3 moving average methods. Along with the amount of modified training, TSB and ACWR across the moving average methods were then examined for their relationship to competitive performance. There were no consistent associations between performance and training load on the day of competition. The volatility (SD) of the ACWR in the last 21 days preceding the competition was moderately correlated with performance across moving average methods (r = -.41 to .48, P = .03-.07). TSB and ACWR volatility in the last 21 days were also significantly lower for successful performers but only as a simple moving average (P = .03 and .03, g = 1.15 and 1.07, respectively). Practitioners should consider restricting change and volatility in an athlete's TSB or ACWR in the last 21 days prior to a major competition. In addition, a simple moving average seemed to better explain elite weightlifting performance than the exponentially weighted moving averages in this investigation.
ISSN:1555-0265
1555-0273
DOI:10.1123/IJSPP.2020-0002