A single session of sensorimotor rhythm neurofeedback enhances long-game performance in professional golfers

Biol Psychol. 2024 Oct:192:108844. doi: 10.1016/j.biopsycho.2024.108844. Epub 2024 Jul 9.

Abstract

Enhanced Sensorimotor Rhythm activity has been linked to increased automation in motor execution. Although existing research demonstrates the positive effects of SMR neurofeedback training on improving golf putting performance, its influence on golf long-game performance remains unexplored. This study sought to address this gap by involving seventeen professional female golfers (Age =24.63 ± 3.24 years, Handicap=2.06 ± 1.18) in a crossover-designed experiment incorporating both NFT and a no-training control condition. During the study, participants executed 40 150-yard swings while receiving continuous SMR neurofeedback. Pre- and post-testing included visual analog scales to assess psychological processes associated with SMR activities, including attention engagement, conscious motor control, and physical relaxation levels. The results revealed that a single session of NFT effectively heightened SMR power irrespective of T1 (p = .02) or T2 (p = .03), which was observed with improved swing accuracy compared to the control conditions, particularly in "To Pin" (p = .04, the absolute distance to the hole after the ball comes to a stop). Subjective assessments further indicated that SMR NFT contributed to a sense of ease and tranquility during motor preparation for the golf swing (attention engagement: p = .01, conscious motor control: p = .033, physical relaxation: p = .013), and which offered valuable insights into the potential mechanisms underlying the impact of SMR NFT on long-game performance. Additionally, in such practical applications professional athletes can utilize our single-session neurofeedback protocol to train efficiently and cost-effectively before competitions, thereby enhancing their opportunity to achieve a higher rank.

Keywords: EEG; Neurofeedback Training; Professional golf swing; Sensorimotor rhythm; Sports performance.

MeSH terms

  • Adult
  • Athletic Performance* / physiology
  • Attention / physiology
  • Cross-Over Studies*
  • Female
  • Golf* / physiology
  • Golf* / psychology
  • Humans
  • Neurofeedback* / methods
  • Psychomotor Performance / physiology
  • Young Adult