How To Monitor Mental Fatigue

Mental fatigue poses a significant threat to athletic performance, affecting areas such as decision-making, motor skills, strength, and endurance. Research indicates that even when physiological indicators remain unchanged, mental fatigue can lead to notable declines in both physical and cognitive performance. Therefore, it is essential to use a combination of objective and subjective measures to assess fatigue accurately. Relying solely on subjective indicators, like athlete feedback or visible signs of tiredness, can be misleading. Athletes may be experiencing more fatigue than can be seen with the naked eye. This can result in unknowingly giving athletes excessive training loads and inadvertently harming performance.

This guide presents simple protocols that utilize the Psychomotor Vigilance Task - Brief (PVT-B), Psychomotor Fatigue Threshold Test (PFTT), and the Rating of Mental Fatigue (RMF) Scale within the Soma Analytics platform. By implementing these tools, coaches and athletes can effectively monitor and manage mental fatigue to optimize performance.

Understanding Cognitive Load in Athletes: Finding the Right Balance

How Much Cognitive Load Is Enough? And How Much Is Too Much?

Cognitive load refers to the mental effort required to perform a task. In the context of athletic training, it’s crucial to balance cognitive load to optimize performance. But how do we determine the right amount?

The Importance of Monitoring Mental Fatigue

Without tracking mental fatigue, it’s challenging to know whether an athlete is being underloaded or overloaded. Without a clear protocol and the right testing tools, coaches and trainers might unknowingly push athletes too hard, or not push them hard enough. Leading to either over or under training. Overtraining occurs when the cognitive training exceeds an athlete’s capacity, potentially causing burnout or decreased performance. Conversely, cognitively under loading means the athlete isn’t being challenged enough to improve.

Flying Blind: The Risks of Unmonitored Cognitive Load

Mental fatigue is often silent—it doesn’t always show obvious signs but can significantly impair performance. Without monitoring mental fatigue at the beginning and end of each training session, you risk:

Underloading: If pre- and post-session performance metrics show no change, athletes might not be experiencing enough mental stress to drive improvement. This is like going through a workout without pushing yourself, leading to stagnant progress.

Overloading: Excessive cognitive load can accumulate, especially during intensive training periods. This can impair both mental and physical performance, jeopardizing an athlete’s readiness for competition.

Context Matters: Tailoring Cognitive Load to the Training Phase

Different training phases require different approaches to cognitive load:

Heavy Season: During periods with intense competition schedules, cognitive training loads might be lighter to maintain optimal performance. Monitoring ensures that any mental fatigue from physical training doesn’t accumulate to harmful levels.

Off-Season or Pre-Season: These phases are ideal for pushing harder, creating sufficient cognitive stress to promote adaptation and improvement. However, it’s essential to ensure athletes can recover adequately between sessions.

PVT-B vs PFTT

Both the PVT-B and PFTT are powerful tools designed to monitor mental fatigue, but their applications differ based on specific training objectives.

PVT-B

The PVT-B (Psychomotor Vigilance Task - Brief) is most effectively used when the primary goal is to monitor mental fatigue. This test is specifically designed to assess how mental fatigue affects cognitive alertness and reaction times. By administering the PVT-B, you can gain detailed insights into an athlete's mental fatigue levels and overall cognitive readiness, making it an essential tool for evaluating how well an athlete can maintain focus and respond to stimuli under conditions of mental strain.

PFTT

The PFTT (Psychomotor Fatigue Threshold Test) is best suited for identifying the precise moment an athlete crosses the psychomotor fatigue threshold during physical training. As physical intensity increases, cognitive performance initially improves, reaching a peak where the brain functions at its highest capacity. However, beyond this peak, cognitive functions, such as reaction time, begin to decline, even if the body continues to perform physically. The PFTT helps pinpoint this critical threshold, allowing coaches to optimize training programs. This might involve keeping the athlete within their optimal performance zone or deliberately pushing them beyond it to enhance their cognitive resilience. Research suggests that this threshold is not fixed and can be improved with consistent, targeted training

When to Use the PVT-B

Monitor Mental Fatigue: Use the PVT-B to assess mental fatigue after cognitive training sessions.

Readiness: Implement this test to evaluate an athlete's mental readiness and detect signs of mental fatigue.

When to Use the PFTT

Identify Psychomotor Fatigue Threshold: Use the PFTT to pinpoint the exact moment an athlete crosses the psychomotor fatigue threshold during physical training.

Optimize Training Programs: Best for determining when cognitive performance peaks and begins to decline as physical intensity rises. This allows you to maintain athletes at their optimal level or push them beyond it to enhance cognitive capacity.

What to Look For: PVT-B

The PVT-B task is a reliable tool for evaluating mental fatigue. By tracking key metrics, you can gain a comprehensive understanding of an athleteʼs cognitive state and tailor training or recovery strategies accordingly.

By understanding these metrics, you can fine-tune training programs, manage recovery, and help athletes maintain peak performance.

What to Look For: PFTT

The PFTT helps identify the sweet spot for cognitive and physical performance by monitoring reaction times as physical intensity increases.

Understanding these phases helps coaches maintain athletes in their optimal zone or strategically push beyond it for targeted training benefits

Rating of Mental Fatigue (RMF) Scale

Subjective Assessment

The RMF Scale, accessible on the Soma Analytics platform, is specifically designed to subjectively assess an athlete’s mental fatigue after they engage in cognitive tasks within Soma NPT. This scale enables athletes to self-report their level of tiredness, providing valuable insights that might not be fully captured by objective measurements alone.

Integration and Data Collection

The RMF Scale can be easily integrated into athletes’ training programs using the Soma Analytics plan builder. When an athlete completes a cognitive task within Soma NPT, they immediately complete the RMF Scale, and this data is automatically linked to that specific task. This integration allows coaches to view mental fatigue readings for each task performed during the training session, along with specific fatigue assessments such as the PVT-B and PFTT. This enhances the depth and accuracy of data collection and analysis.

Enhanced Training Programs

Such detailed information is crucial as it helps identify specific stressors, enabling the adjustment of training programs to better align with an athlete’s capacity and recovery needs.

Interpretation of RMF Scale

The RMF Scale quantifies mental fatigue, with higher scores indicating greater perceived mental fatigue by the athlete.

Mental Fatigue Monitoring Protocol: PVT-B

Mental Fatigue Monitoring Protocol: PFTT

Mental Fatigue Research

1. The effects of mental fatigue on sport-related performance
2. The application of mental fatigue research to elite team sport performance: New perspectives
3. Mental fatigue and sport-specific psychomotor performance: A systematic review
4. Stress states, mental fatigue, and the concept of mental recovery in sports
5. The influence of mental fatigue on sessional ratings of perceived exertion in elite open and closed skill sports athletes
6. Does mental fatigue affect skilled performance in athletes? A systematic review
7. What is mental fatigue in elite sport? Perceptions from athletes and staff
8. The effects of mental fatigue on physical performance: A systematic review
9. Does mental fatigue affect performance in racket sports? A systematic review
10. Mental fatigue impairs soccer-specific physical and technical performance
11. The effects of mental fatigue on sport performance
12. Mental fatigue and ball sports: A narrative review focused on physical, technical, and tactical performance
13. The effects of mental fatigue on sport-specific motor performance among team sport athletes: A systematic scoping review
14. Mental fatigue and basketball performance: A systematic review
15. Mental fatigue and soccer: Current knowledge and future directions
16. Effects of mental fatigue on reaction time in sportsmen
17. Assessment of mental fatigue and stress on electronic sport players with data fusion
18. Mental fatigue impairs soccer-specific decision-making skill
19. How do elite female team sport athletes experience mental fatigue? Comparison between international competition, training and preparation camps
20. How to tackle mental fatigue: A systematic review of potential countermeasures and their underlying mechanisms
21. Mental fatigue in sport—from impaired performance to increased injury risk
22. Mental fatigue in soccer: A systematic review
23. Mental fatigue alters the speed and the accuracy of the ball in table tennis
24. The effects of mental fatigue on cricket-relevant performance among elite players
25. Mental fatigue: Impairment of technical performance in small-sided soccer games
26. Impact of mental fatigue on self-paced exercise
27. Drive in sports: How mental fatigue affects endurance performance
28. Effects of mental fatigue on passing decision-making performance in professional soccer athletes
29. Mental fatigue impairs physical activity, technical and decision-making performance during small-sided games
30. The effect of mental fatigue on the performance of Australian football-specific skills amongst amateur athletes
31. Effects of mental fatigue on soccer-specific performance in young players
32. Sport-based video game causes mental fatigue and impairs visuomotor skill in male basketball players
33. Do cognitive, physical, and combined tasks induce similar levels of mental fatigue? Testing the effects of different moderating variables
34. Mental fatigue increases across a 16-week pre-season in elite female athletes
35. Mental fatigue impairs endurance performance: A physiological explanation
36. Mental fatigue in football: Is it time to shift the goalposts? An evaluation of the current methodology
37. Mental fatigue impairs physical performance in humans
38. Effects of mental fatigue on endurance performance in the heat
39. Impact of mental fatigue on speed and accuracy components of soccer-specific skills
40. Effect of mental fatigue on decision-making skill and visual search behaviour in basketball players: An experimental and randomised study
41. Mental fatigue-associated decrease in table tennis performance: Is there an electrophysiological signature?
42. Understanding the presence of mental fatigue in English academy soccer players
43. Mental fatigue and spatial references impair soccer players' physical and tactical performances
44. [Mental fatigue over 2 elite netball seasons: A case for mental fatigue to be included in athlete self-report measures](https://journals.humankinetics.com/view/journals/ijspp/17/2/article-p160.xml?alreadyAuth
45. Mental fatigue impairs physical performance in young swimmers
46. Mental fatigue impairs repeated sprint and jump performance in team sport athletes
47. Effects of mental fatigue on technical performance in soccer players: A systematic review with a meta-analysis
48. Global practitioner assessment and management of mental fatigue and mental recovery in high-performance sport: A need for evidence-based best-practice guidelines
49. The counteractive effects of interventions addressing mental fatigue on sport-specific performance among athletes: A systematic review with a meta-analysis
50. Mental fatigue effects on the produced perception of effort and its impact on subsequent physical performances
51. Mental fatigue impairs technical performance and alters neuroendocrine and autonomic responses in elite young basketball players
52. Mental fatigue negatively influences manual dexterity and anticipation timing but not repeated high-intensity exercise performance in trained adults
53. Impacts of mental fatigue and sport-specific film sessions on basketball shooting task
54. Mental fatigue impairs time trial performance in sub-elite under 23 cyclists
55. Comparing the effects of three cognitive tasks on indicators of mental fatigue
56. Effects of mental fatigue on exercise intentions and behavior
57. The effects of physical and mental fatigue on time perception
58. Negative effects of mental fatigue on performance in the Yo-Yo test, Loughborough soccer passing and shooting tests: A meta-analysis
59. Mental fatigue impairs visuomotor response time in badminton players and controls
60. How does mental fatigue affect soccer performance during small-sided games? A cognitive, tactical and physical approach
61. Effects of mental fatigue on the psychophysiological responses, kinematic profiles, and technical performance in different small-sided soccer games
62. Is motivation associated with mental fatigue during padel trainings? A pilot study
63. Mental fatigue measured in real-world sport settings: A case study of world-class beach volleyball players
64. Mental fatigue: Costs and benefits
65. Effects of mental fatigue on exercise decision-making
66. The role of mental fatigue in soccer: A systematic review
67. Effects of mental fatigue on the development of physical fatigue: A neuroergonomic approach
68. Exploring the effects of mental and muscular fatigue in soccer players’ performance
69. Mental fatigue and sport: From the lab to the field
70. Effects of mental fatigue induced by social media use on volleyball decision-making, endurance, and countermovement jump performance
71. Mental fatigue impairs padel-specific psychomotor performance in youth-elite male players
72. Changes in perceptions of mental fatigue during a season in professional under-23 English Premier League soccer players
73. Mental fatigue: The cost of cognitive loading on weight lifting, resistance training, and cycling performance
74. Influence of pre-induced mental fatigue on tactical behaviour and performance among young elite football players
75. Effects of mental fatigue on psychophysiological, cognitive responses, and technical skills in small-sided games in amateur soccer players
76. Mental fatigue reduces training volume in resistance exercise: A cross-over and randomized study
77. Smartphone use among high-level swimmers is associated with mental fatigue and slower 100- and 200- but not 50-meter freestyle racing
78. Prior mental fatigue impairs marksmanship decision performance
79. Mental fatigue impairs second serve accuracy in tennis players
80. Investigating the effects of mental fatigue on resistance exercise performance
81. Prolonged cognitive effort impairs inhibitory control and causes significant mental fatigue after an endurance session with an auditive distractor in professional soccer players
82. Mental fatigue impairs the number of repetitions to muscular failure in the half back-squat exercise for low- and mid- but not high-intensity resistance exercise
83. Mental fatigue reduces training volume in resistance exercise: A cross-over and randomized study
84. The influence of mental fatigue on sessional ratings of perceived exertion in elite open and closed skill sports athletes
85. Impact of a mental fatigue protocol on performance in extreme conditioning programs
86. Mental fatigue from smartphone use reduces volume-load in resistance training: A randomized, single-blinded cross-over study
87. The effects of mental fatigue on anaerobic power and power endurance performance
88. Effects of mental fatigue on strength endurance: A systematic review and meta-analysis
89. Effects of mental fatigue on the development of physical fatigue: A neuroergonomic approach
90. Effects of isolated and combined mental and physical fatigue on motor skill and endurance exercise performance
91. Mental fatigue impairs physical performance in humans
92. Cognitive fatigue influences time-on-task during bodyweight resistance training exercise
93. Mental fatigue uniquely influences drop landing biomechanics for individuals with a concussion history
94. The effects of mental fatigue on cricket-relevant performance among elite players
95. Adaptive cognitive tasks for mental fatigue: An innovative paradigm for cognitive loading in human performance
96. Effects of isolated and combined mental and physical fatigue on motor skill and endurance exercise performance
97. The relationship between mental fatigue and shooting performance over the course of a National Collegiate Athletic Association Division I basketball season
98. Impacts of mental fatigue and sport-specific film sessions on basketball shooting tasks