Monitoring Training Load in Artistic Gymnastics - BJSM blog - social media's leading SEM voice (2024)

Benefits, Challenges, and Future Directions of Monitoring Training Load in Artistic Gymnastics

Key words: Athletic Injuries, Gymnastics, Sports Medicine

INTRODUCTION

At the 2019 Artistic Gymnastics World Championships and 2021 Olympics, an international group of gymnastics practitioners discussed the challenges of monitoring training load and the need for progression in this area.

Optimal methods for monitoring external and internal training load in artistic gymnastics have not been established. External load is an objective measurement of an athlete-performed variable (e.g. speed) whereas internal load is a biological variable within the athlete (e.g. heart rate). Understanding an individual’s response to training and potential reduction in injuries are among the benefits of monitoring training load. This is critical in gymnastics with its sizable incidence and prevalence of injury1. Despite these established benefits, the optimal practice for monitoring training load in artistic gymnastics has not been established.

PREVIOUS RESEARCH

Some studies have attempted to measure training load in artistic gymnastics. Most of this work has focused on external workload variables. Often training load is quantified by the hours of weekly training2. However, this neglects to account for the variable training intensity or the rest periods between built into training. Studies have also attempted to quantify training load by incorporating variables such as frequency of skills, impact forces, coefficient variables, and advanced biomechanical sensors3 4. While these methods offer valuable information, their utility is limited because they are labor intensive and require access to specialized equipment and analysis.

A few studies have attempted to monitor internal training load variables in artistic gymnastics by tracking session rate of perceived exertion (sRPE)5, 6. One study demonstrated a correlation between daily heart rate variability, sRPE, and psychological stress5, and another showed that higher sRPEs correlated with worse performance during a world championship competition6. More recently, sRPE values were found to be significantly higher for high-level compared to medium-level women’s artistic gymnasts, as a result of greater rate of perceived effort (RPE) and training time7. These studies suggest that sRPE may be a valid measure to monitor workload in artistic gymnasts and could provide beneficial information when planning training.

CHALLENGES

Artistic gymnastics is a dynamic sport characterized by long and intense training. It includes a wide range of varied events (six apparatus for men, four for women). The complex nature of this sport poses a unique consideration when working to define training sessions variables and measure training load.

The implementation of a load monitoring system also has inherent challenges. The system must be individualized for each gymnast as well as accommodate for the variationin gymnastics events and training and answer gymnastics specific questions1, 8. Athletes and coaches will need to trust that monitoring is beneficial to them8. The system needs to be simple, self-reporting, and discourage parent and coach input to minimize bias. Barriers to accurate self-monitoring include fear that the data will negatively impact their ability to train, motivation to participate, recall bias, and community acceptance8. The intricacies lie not only in how data is gathered, butin having the processes toobtain andanalyzethe datafrequently, as well as provide feedback, andimplement changes to training accordingly8.

FUTURE RESEARCH IS IMPERATIVE

Tools to monitor training in gymnasts are currently under in and include gymnastics-specific monitoring tools and internal load tools, such as apparatus specific RPEs, weighting factors for zones of intensity and wearable accelerometers to measure impact loading rates. Future research should aim to test these ideas longitudinally to find reliable, valid and practically useful tools that easily produce meaningful data. This information may assist coaches and medical providers to develop training plans that decrease injury rates and enhance performances. The tools could provide substantial benefits to gymnasts’ physical and mental health, as well as performance and injury risk.

Monitoring Training Load in Artistic Gymnastics - BJSM blog - social media's leading SEM voice (1)

Authors: Patel, Tejal S.(1); Faustin, Marcia (2); Katz, Nicole B. (3); Kruse, David W. (4); Tilley, David (5); Laird, Jason (6); Casey, Ellen (7)

(1)British Gymnastics; University of Bath

(2)UC Davis, Physical Medicine & Rehabilitation; UC Davis, Family & Community Medicine

(3)Spaulding Rehabilitation Hospital, Physical Medicine & Rehabilitation

(4)Orthopaedic Specialty Institute; Hoag Orthopedic Institute

(5)Champion Physical Therapy and Performance; SHIFT

(6)Coventry University

(7)Hospital for Special Surgery, Physiatry

Corresponding Author:

Ellen Casey, MD, FASCM
Associate Professor

Director of Research, Dept of Physiatry

Hospital for Special Surgery

535 East 70th Street, New York, NY 10021

(212) 606-1149

caseye@hss.edu

Statements

Competing interests: Not applicable.
Contributorship: E.C. led the coordination of this project. T.P. was the project originator and created the accompanying infographic. All authors contributed to reviewing the literature and writing the published work.
Acknowledgements: Not applicable.
Funding, grant and award info: Not applicable.
Ethical approval information: Not applicable.
Data sharing statement: Not applicable.
Patient involvement: Not applicable. No patients were involved.

REFERENCES

  1. Campbell RA, Bradshaw EJ, Ball NB, et al. Injury epidemiology and risk factors in competitive artistic gymnasts: a systematic review. British journal of sports medicine 2019;53(17):1056-69. doi: 10.1136/bjsports-2018-099547 [published Online First: 2019/01/24]
  2. Guerra MR, Estelles JR, Abdouni YA, et al. FREQUENCY OF WRIST GROWTH PLATE INJURY IN YOUNG GYMNASTS AT A TRAINING CENTER. Acta Ortop Bras 2016;24(4):204-07. doi: 10.1590/1413-785220162404157422 [published Online First: 2017/03/01]
  3. Sanchez AM, Galbès O, Fabre-Guery F, et al. Modelling training response in elite female gymnasts and optimal strategies of overload training and taper. Journal of sports sciences 2013;31(14):1510-9. doi: 10.1080/02640414.2013.786183 [published Online First: 2013/05/10]
  4. Campbell RA, Bradshaw EJ, Ball N, et al. Effects of digital filtering on peak acceleration and force measurements for artistic gymnastics skills. Journal of sports sciences 2020;38(16):1859-68. doi: 10.1080/02640414.2020.1757374 [published Online First: 2020/04/25]
  5. Dumortier J, Mariman A, Boone J, et al. Sleep, training load and performance in elite female gymnasts. Eur J Sport Sci 2018;18(2):151-61. doi: 10.1080/17461391.2017.1389992 [published Online First: 2017/10/27]
  6. Sartor F, Vailati E, Valsecchi V, et al. Heart rate variability reflects training load and psychophysiological status in young elite gymnasts. Journal of strength and conditioning research / National Strength & Conditioning Association 2013;27(10):2782-90. doi: 10.1519/JSC.0b013e31828783cc [published Online First: 2013/02/01]
  7. Trucharte P, Ignacio G. Analysis and comparison of training load between two groups of women’s artistic gymnastics related to the perception of effort and the rating of the perceived effort session. Science of Gymnastics Journal 2021;13(1):19-33.
  8. Duignan CM, Slevin PJ, Caulfield BM, et al. Exploring the Use of Mobile Athlete Self-report Measures in Elite Gaelic Games: A Qualitative Approach. Journal of strength and conditioning research / National Strength & Conditioning Association 2021;35(12):3491-99. doi: 10.1519/jsc.0000000000003334 [published Online First: 2021/12/01]

(Visited 2,126 times, 1 visits today)

Monitoring Training Load in Artistic Gymnastics - BJSM blog - social media's leading SEM voice (2024)
Top Articles
Latest Posts
Recommended Articles
Article information

Author: Gov. Deandrea McKenzie

Last Updated:

Views: 6099

Rating: 4.6 / 5 (66 voted)

Reviews: 81% of readers found this page helpful

Author information

Name: Gov. Deandrea McKenzie

Birthday: 2001-01-17

Address: Suite 769 2454 Marsha Coves, Debbieton, MS 95002

Phone: +813077629322

Job: Real-Estate Executive

Hobby: Archery, Metal detecting, Kitesurfing, Genealogy, Kitesurfing, Calligraphy, Roller skating

Introduction: My name is Gov. Deandrea McKenzie, I am a spotless, clean, glamorous, sparkling, adventurous, nice, brainy person who loves writing and wants to share my knowledge and understanding with you.