- Faculty of Sport Sciences, Universidad Europea de Madrid, Madrid, Spain
This study aimed to analyze the differences in the precompetitive anxiety and self-confidence according to the side of play, the ranking and the match outcome, under different competitive scenarios, in high level men’s padel players from Finland who trained under pressure prior to the competition. 10 men’s padel players (28.60 (4.17) years old) from the highest category participated in the research. The CSAI-2R (Competitive State Anxiety Inventory-2 Revised) and STAI-S (State–Trait Anxiety Inventory – State) questionnaires were used and descriptive and inferential analyzes were performed, including Mann–Whitney’s U tests. The findings illuminate that, across the player spectrum, somatic anxiety and self-confidence levels are higher before competition compared to training matches. This trend holds true for left-side, higher-ranked and match winning players. Even lower-ranked players exhibit heightened self-confidence preceding competitions. These insights offer valuable considerations for players, coaches, and sports psychologists, fostering a deeper understanding of the intricate interplay between pressure training, competition, and the athlete’s psychological landscape.
Introduction
The global surge of padel, a doubles racket sport, has attracted participants from over 60 nations affiliated with the International Padel Federation (2024). This growth has triggered a notable rise in scholarly research focused on psychophysiology (Conde-Ripoll et al., 2023; Díaz-García et al., 2023a; Bustamante-Sánchez et al., 2024), although technical-tactical performance remains a dominant area of study (Lupo et al., 2018; Escudero-Tena et al., 2021; Martín-Miguel et al., 2023; Conde-Ripoll et al., 2024; Ungureanu et al., 2024).
Participating in sports may involve rigorous physical exertion and significant psychological burdens, posing challenges for certain athletes to handle and potentially resulting in adverse outcomes (Balaguer et al., 2012). This phenomenon becomes more pronounced when high-level padel players are required to compete in two consecutive matches within a single day, leading to a notable build-up of cognitive exhaustion which intensifies perceived mental fatigue (Díaz-García et al., 2023b). On its part, anxiety encompasses a negative emotional state characterized by nervousness, worry, and apprehension, typically accompanied by heightened physiological arousal (Weinberg and Gould, 2010). This state leads to an individual’s diminished adaptability across physiological, behavioral, and cognitive realms, thereby obstructing athletic performance (Tamorri, 2004). Anxiety often escalates immediately before competition and subsides shortly afterward (Gould et al., 1984). Numerous studies have confirmed that heightened pre-competitive anxiety can hinder athletic performance (Burton, 1988).
To comprehend this anxious state, the multidimensional theory (Martens et al., 1990) suggests that subjective expressions of anxiety involve cognitive and somatic components, along with self-confidence. The somatic aspect encompasses the physiological and emotional facets of anxiety, originating directly from organismic activation (Martens et al., 1990). It encompasses a range of physical symptoms (elevated levels of physiological function activation) triggered automatically by the demands of competition (Dosil, 2004), often accompanied by nervousness and tension. Conversely, cognitive anxiety pertains to the mental dimension of anxiety, arising from negative expectations or low self-confidence levels in oneself and one’s abilities (Martens et al., 1990). A third aspect, self-confidence, while not a direct measure of anxiety, can influence athletes’ experience of cognitive anxiety. Self-confidence reflects an individual’s belief in their capacity to manage their surroundings and themselves (Woodman and Hardy, 2001). Prior to Spanish competitions, high-level (first category) padel players exhibit higher levels of self-confidence and lower levels of somatic-anxiety when compared to players from third category (Castillo-Rodriguez et al., 2022).
Training should be tailored to prepare players for competition in the best possible way. A comparison between the demands of competition and training suggests that the former typically imposes higher physiological demands, coupled with psychological factors such as the allure of victory, competition prestige, and the challenge posed by rival athletes. Souza et al. (2019) observed elevated somatic anxiety, LH/HF ratio, and cortisol levels preceding competitions in contrast to training, what suggest an excitement of the autonomous nervous system on its sympathetic division. As relevant competitions approach, as exemplified in our study with training occurring 2 weeks prior to a key event, research suggests an increase in stress and anxiety levels among athletes (Loupos et al., 2008; Morales et al., 2014; Bustamante-Sánchez et al., 2024). In racket sports, contemporary methodologies advocate for competitive training scenarios mirroring match-play conditions to enhance decision-making proficiency in authentic settings (Mecheri et al., 2019; Navia et al., 2022). It is important to highlight that in racket sports like padel, where rapid decision-making is constant (Castillo-Rodríguez et al., 2014), effectively managing pressure situations directly influences performance (González-Díaz et al., 2012; Knight et al., 2016; Martínez-Gallego et al., 2022). Since mental strength plays a pivotal role in sports success (Crust and Keegan, 2010) and in upholding or boosting competitive performance (Gucciardi et al., 2015), players need to develop their mental skills (Mamassis and Doganis, 2004) as well as pressure should be present during training sessions (Low et al., 2021). Although replicating competition can be difficult, training under mild levels of pressure can still benefit future performance under higher levels of pressure (Oudejans and Pijpers, 2010). Pressure training is an intervention that applies pressure on athletes while they practice their sport with the aim of helping them improve their performance under pressure (Low et al., 2021). In other words, it attempts to increase pressure above the level that athletes feel in a typical training session. In this regard, Stoker et al. (2016) examined stressors that elite-level coaches, among a wide spectrum of sports like badminton and table tennis, used to intentionally create pressure during training sessions. The ensuring framework categorized stressors into demands and consequences. The former increased the difficulty to perform (for example, adding distractions to the environment or changing the rules of a drill), whereas the latter included rewards (e.g., the change to choose the next tournament abroad), forfeits (e.g., having to miss a training session), or judgment (e.g., being watched by the professional team’s performance director). Subsequent research found that consequences increase pressure more than demands do (Stoker et al., 2017, 2019).
Despite the growing interest in padel, a notable gap exists in the scientific literature regarding the consideration of pressure training, the comparison of precompetitive anxiety levels between training and competition contexts, and between players based on their side of play. Our study aims to address this gap by investigating these aspects within the padel domain, providing valuable insights into the psychological dynamics of player performance. By examining the effects of pressure training and elucidating differences in anxiety levels between training and competition, and between right- and left-side players, we aim to offer a novel contribution to the field. These findings hold significant practical implications for players, coaches, and sports psychologists, as they can inform tailored strategies for optimizing player performance and well-being. Players may benefit from lifestyle modifications and adjustments to playing style, while coaches and psychologists can tailor training sessions and feedback to better support players in managing anxiety and enhancing self-confidence.
Therefore, the aim of the present investigation was to analyze the differences in the pre-competitive anxiety and self-confidence between training and competition in high-level men’s padel players from Finland who trained under pressure, according to the side of play, the ranking, and the match outcome. The following hypotheses were put forward: (1) prior to competition, athletes will show higher levels of anxiety and lower levels of self-confidence than prior to training matches, (2) left-side players, as well as right-side players, will show higher levels of self-confidence and less anxiety before competition than prior to training matches, (3) both prior to training and competitive matches, left-side players will present lower levels of anxiety and higher levels of self-confidence when compared to right-side players, (4) higher ranked players will show similar levels of anxiety and self-confidence between competition and training matches while lower ranked players will show lower levels of self-confidence and higher levels of anxiety before competition than training matches, (5) match winning players will show similar levels of anxiety and self-confidence between competition and training matches while match losing players will show lower levels of self-confidence and higher levels of anxiety before competition than training matches.
Materials and methods
Sample and participants
A total of 10 men’s high level padel players (28.60 (4.17) years old) from Finland voluntarily participated in the present study. All participants were ranked top 25 in Finland. None of the athletes had physical injuries, nor were they using any medication. In addition, none of the participants had any reason that prevented them from participating in the study. The sample consisted of 20 matches (training: 11, competition: 9). The training matches took place at Padel Tampere Linnakallio New during the 2 weeks prior to the 2023 Finnish national championship by pairs. The obtained points of this competition counted for the ranking of the Finnish Federation. The study was in accordance with the Helsinki Declaration (World Medical Association, 2013). Participants were treated ethically under the American Psychological Association code of ethics regarding consent, anonymity and responses. Previously, the current investigation had been approved by the Ethics Committee of the European University of Madrid with the code CIPI/22.303. So as to respect the principles of voluntariness and confidentiality, each player was required to sign an informed consent form that clearly explained the objectives of the research and their voluntary participation in it. To obtain permission to administer the questionnaires to the players before the competition, the researchers first contacted the Finnish Padel Federation and the championship organizer.
Instruments
Competitive anxiety
CSAI-2R was used to measure precompetitive anxiety and self-confidence of players (Cox et al., 2003) and STAI-S was used to measure their state anxiety (Spielberger et al., 1970). These questionnaires have been used in previous research in padel (Conde-Ripoll et al., 2023). In the analysis of the CSAI-2R instrument, Cronbach’s alpha coefficients were obtained, showing reliability scores of 0.515 for cognitive anxiety, 0.808 for somatic anxiety, 0.758 for self-confidence, all but the former meeting acceptable standards (Nunnally and Bernstein, 1994; DeVellis, 2003; Vaske, 2008).
Procedure
The players were informed by the coach that they would undergo pressure training. Pressure training refers to an intervention designed to assist athletes in performing under pressure by deliberately exposing them to stressors during training sessions (Bell et al., 2013; Driskell et al., 2014; Stoker et al., 2016). In our study, players were recorded during the training matches while their technical-tactical performance was exhaustively evaluated by the head coach of the first-ever professional padel team in Finland. Players were informed about this process before the training match began.
The questionnaires were administered to the players between 30 and 45 min prior to the start of each match, following the same criteria to that used by Andrade-Fernández et al. (2007) and Conde-Ripoll et al. (2023). All questionnaires were completed in a quiet room with controlled temperature of 20°C. Participants completed the questionnaires in English, as it is the only language that both researchers and athletes are fluent in. Participants were not allowed to speak during the assessments.
Statistical analysis
A Kolgomorov-Smirnov test was used to test the normality of the distribution of the data and it indicated that it is non-parametric. Then, results were shown as median and interquartile range.
Next, inferential analyzes were conducted, including Mann–Whitney’s U tests. Additionally, effect sizes (Cohen’s d) were calculated and can be interpreted as small (0.20 to 0.49), moderate (0.50 to 0.79) and large (d ≥ 0.80) (Cohen, 1988).
All data were analyzed using the statistical package SPSS for Macintosh v.25.0 (SPSS Inc., Chicago, IL, United States). A p value of less than 0.05 was considered to be statistically significant.
Results
Results are shown as mean and interquartile range.
Table 1 presents the level of precompetitive anxiety and self-confidence between players at training and at competition matches. Players significantly present higher levels of somatic anxiety (p = 0.025; d = 0.602) and self-confidence (p = 0.002; d = 0.848) in competition when compared to training matches.
Table 1. Precompetitive anxiety and self-confidence between players at training and at competition matches.
Table 2 further examines the level of precompetitive anxiety and self-confidence between players at training and at competition matches as a function of the side of play. Left-side players significantly present higher levels of somatic anxiety (p = 0.045; d = 0.708) and self-confidence (p = 0.002; d = 1.265) in competition when compared to training matches.
Table 2. Precompetitive anxiety and self-confidence between players at training and at competition matches according to the side of play.
Table 3 depicts the level of precompetitive anxiety and self-confidence between right- and left-side players at training and at competition matches. Before training matches, right-side players present significantly higher levels of somatic anxiety (p = 0.016; d = 0.873) and state anxiety (p < 0.001; d = 1.480) than left-side players.
Table 3. Precompetitive anxiety and self-confidence between right- and left-side players at training and at competition matches.
Table 4 delves into the variation of the levels of precompetitive anxiety and self-confidence between players at training and at competition matches as a function of the ranking. Higher-ranked players present significantly higher levels of somatic anxiety (p = 0.005; d = 1.075) and self-confidence (p = 0.046; d = 0.717) at competition when compared to training matches. Lower-ranked players present significantly higher levels of self-confidence (p = 0.019; d = 1.053) at competition when compared to training matches.
Table 4. Precompetitive anxiety and self-confidence between players at training and at competition matches according to the ranking.
Table 5 shows the level of precompetitive anxiety and self-confidence between players at training and at competition matches as a function of the match outcome. Winning players present significantly higher levels of somatic anxiety (p = 0.026; d = 0.824) and self-confidence (p = 0.014; d = 0.922) at competition when compared to training matches.
Table 5. Precompetitive anxiety and self-confidence between players at training and at competition matches according to the match outcome.
Discussion
The aim of the present study was to evaluate anxiety and self-confidence prior to training matches and sports competition in high level men’s padel players from Finland. The initial hypothesis positing higher levels of anxiety and lower levels of self-confidence before competitive matches compared to training matches was only partially supported by the findings. Our findings revealed significant differences in self-confidence and somatic anxiety. Specifically, higher levels were reported prior to competition than before training matches. These observed differences may be attributed to several key factors. Firstly, the heightened excitement and importance associated with official matches might inspire top players to exhibit their utmost self-assurance. The challenges inherent in an official game may lead athletes to rely on their skills and positive beliefs, thereby boosting their self-confidence and somatic anxiety levels. Additionally, the structured and organized nature of competitive play, coupled with the presence of spectators and the pursuit of tangible outcomes, may foster a heightened sense of readiness and physiological arousal in players. In comparison to previous research, our findings align with certain patterns observed by Cervantes Blásquez et al. (2009) in swimmers, where similar differences in somatic anxiety were noted between training and competition. Likewise, Souza et al. (2019) found that somatic anxiety remained stable in canoe athletes, street runners and jiu-jitsu fighters a few days prior to the event but show a sudden rise and reach a peak at the onset of the competition. Interestingly, Mateo et al. (2012) also showed that somatic anxiety was lower 3 days before the first day of competition in BMX riders, although the opposite happened to self-confidence.
Another hypothesis was that left-side players, as well as right-side players, will show higher levels of anxiety and lower levels of self-confidence before competition than prior to training matches. This hypothesis was partially accepted. We observed that left-side players presented higher levels of somatic anxiety and self-confidence before competition than before training matches. However, it is crucial to note that no significant differences were found among right-side players in the same comparison, indicating unique psychological responses based on player positions. These results may be indicative of the distinctive responsibilities and pressures experienced by players during critical moments in a match. The higher involvement of the left-side player in the penultimate and last shots of the points (Ramón-Llín et al., 2022) aligns with the idea that their perceived role in shaping match outcomes could contribute to heightened somatic anxiety and self-confidence before competition.
In addition, it was hypothesized that both prior to training and competitive matches, left-side players will present lower levels of anxiety and higher levels of self-confidence when compared to right-side players. This was partially accepted, since left-side players only presented lower levels of somatic anxiety and state anxiety prior to training matches. As mentioned before, it is common in a padel pair consisting of right-handed players to position the best player on the left-side. This strategic choice is often made because it increases the likelihood of the player hitting more shots, especially overheads. It is worth highlighting that this is a pioneer study and future research should keep evaluating these trends.
It was also hypothesized that higher ranked players will show similar levels of anxiety and self-confidence between competition and training matches while lower ranked players will show lower levels of self-confidence and higher levels of anxiety before competition than training matches. The findings showed that among higher ranked players, somatic anxiety and self-confidence was higher prior to competition than before training matches. And, among lower ranked players, self-confidence was higher prior to competition than before training matches. The higher somatic anxiety observed among higher-ranked players before competition may be due to the fact that their performance is closely scrutinized, the stakes are higher, and there is an increased pressure to maintain their reputation and rankings, all of which contribute to a heightened arousal. This is consistent with findings from Cervantes Blásquez et al. (2009), who similarly observed higher somatic anxiety levels among athletes prior to competition compared to a simulated competition during training, as evidenced in their research with swimmers. For both the higher-and the lower-ranked players, the higher self-confidence before competition may be a result of the positive effects of pressure training. This is in accordance with Low et al. (2023), in which some international athletes were interviewed and admitted that their self-confidence was boosted due to the pressure training.
Additionally, it was hypothesized that match winning players will show similar levels of anxiety and self-confidence between competition and training while match losing players will show lower levels of self-confidence and higher levels of anxiety before competition than training matches. The results showed that there were significant differences only among winning players, in somatic anxiety and self-confidence. Specifically, these players presented higher values before competitive matches than before training matches. The pressure training conducted during the weeks leading up to the competition may have played a pivotal role in shaping the psychological preparedness of winning players (Gröpel and Mesagno, 2017; Kent et al., 2018). It is also worth noting that the positive effect of self-confidence on competitive success has been confirmed by several studies (Vealey and Greenleaf, 2001; Hassmén et al., 2004; Jekauc et al., 2023).
In a practical context, coaches are urged to engage in pressure training to enhance the readiness of their athletes for competitive situations (Stoker et al., 2016; Low et al., 2023). Similarly, it is recommended that athletes participate in psychological training to cultivate mental skills and effectively apply them under pressure (Lange-Smith et al., 2023). Moreover, coaches should consider psychological training to facilitate effective communication (Mora et al., 2009) with their players, conduct productive training sessions, and provide constructive feedback in both training and competitive environments.
This study possesses several notable strengths. Firstly, it marks the pioneering implementation of pressure training in the field of padel. Secondly, it stands as the inaugural research endeavor to examine precompetitive anxiety and self-confidence levels based on the side of play, as well as to compare precompetitive anxiety and self-confidence levels between players of the same side at the same moment (pre-training and pre-match, respectively). Thirdly, the implications drawn from these findings hold substantial practical value for coaches and sport psychologists. It is imperative to consider these results in designing effective pressure training programs for athletes.
It is essential to underscore certain limitations inherent in this investigation. For future investigations, the implementation of randomized controlled trials in both genders is recommended to more accurately assess the impact of pressure training. Additionally, incorporating alternative tools like pulsometers, which measure heart rate variability, alongside traditional questionnaires would provide a more comprehensive understanding of precompetitive anxiety and self-confidence. Furthermore, expanding the participant pool to include both elite and amateur-level players is advisable for a more nuanced exploration of the psychological effects of pressure training in different players. Moreover, exploring the effects of pressure training on padel performance could provide a holistic understanding of the impact of this intervention on actual gameplay. In addition, it would be necessary to include the influence of left-handed players in this analysis in future studies.
Conclusion
The levels of anxiety and self-confidence before training matches and competitive matches have been described in high-level men’s padel players from Finland who underwent pressure training in the two leading weeks to a competition. The analysis, accounting for variables such as side of play, ranking and match outcome, reveals distinctive patterns.
Pressure training exerts a discernible impact on players, manifesting in lower self-confidence and similar levels of cognitive and state anxiety, juxtaposed with elevated somatic anxiety before training matches when compared to competitive matches. This trend persists across left-side, higher-ranked and match winning players. Intriguingly, even lower-ranked players display heightened self-confidence ahead of competitions.
These findings offer valuable insights for players, coaches, and sports psychologists, enriching their understanding of the intricate interplay between pressure training, competition, and the athlete’s psychological landscape. In practical terms, the results suggest that players can benefit from honing their mental skills and engaging in pressure training to optimize performance. Consequently, padel coaches are encouraged to consider psychological training, fostering effective support for their athletes. Hence, the incorporation of a sport psychologist within teams could prove instrumental in maximizing the psychological well-being and performance potential of padel players.
Data availability statement
The raw data supporting the conclusions of this article will be made available by the authors, without undue reservation.
Ethics statement
The studies involving humans were approved by Ethics committee of the Universidad Europea de Madrid (CIPI/22.303). The studies were conducted in accordance with the local legislation and institutional requirements. The participants provided their written informed consent to participate in this study.
Author contributions
RC-R: Conceptualization, Data curation, Formal analysis, Investigation, Methodology, Resources, Validation, Writing – original draft, Writing – review & editing. AE-T: Supervision, Validation, Writing – original draft. ÁB-S: Conceptualization, Funding acquisition, Investigation, Methodology, Project administration, Supervision, Validation, Writing – original draft, Writing – review & editing.
Funding
The author(s) declare that financial support was received for the research, authorship, and/or publication of this article. This study has been financed by the Universidad Europea de Madrid, through an internal competitive project with code CIPI/22.303.
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
Publisher’s note
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References
Andrade-Fernández, E. M., Lois-Río, G., and Arce-Fernández, C. (2007). Propiedades psicométricas de la versión española del inventario de ansiedad competitiva CSAI-2R en deportistas. Psicothema 19, 150–155.
Balaguer, I., Gonzales, L., Fabra, P., Castillo, I., Merce, J., and Duda, J. L. (2012). Coaches’ interpersonal style, basic psychological needs and the well-and ill-being of young soccer players: a longitudinal analysis. J. Sports Sci. 30, 1619–1629. doi: 10.1080/02640414.2012.731517
Bell, J. J., Hardy, L., and Beattie, S. (2013). Enhancing mental toughness and performance under pressure in elite young cricketers: a 2-year longitudinal intervention. Sport Exerc. Perform. Psychol. 2, 281–297. doi: 10.1037/spy0000010
Burton, D. (1988). Do anxious swimmers swim slower? Reexamining the elusive anxiety-performance relationship. J. Sport Exer. Psychol. 10, 45–61. doi: 10.1123/jsep.10.1.45
Bustamante-Sánchez, A., Ramírez-Adrados, A., Iturriaga, T., and Fernández-Elías, V. E. (2024). Effects on strength, jump, reaction time and perception of effort and stress in men’s top-20 world padel competitions. Padel Sci. J. 2, 7–19. doi: 10.17398/2952-2218.2.7
Castillo-Rodríguez, A., Alvero-Cruz, J. R., Hernández-Mendo, A., and Fernández-García, J. C. (2014). Physical and physiological responses in paddle tennis competition. Int. J. Perform. Anal. Sport 14, 524–534. doi: 10.1080/24748668.2014.11868740
Castillo-Rodriguez, A., Hernández-Mendo, A., Alvero-Cruz, J. R., Onetti-Onetti, W., and Fernández-García, J. C. (2022). Level of precompetitive anxiety and self-confidence in high level padel players. Front. Psychol. 13:890828. doi: 10.3389/fpsyg.2022.890828
Cervantes Blásquez, J. C., Rodas Font, G., and Capdevila Ortís, L. (2009). Heart-rate variability and precompetitive anxiety in swimmers. Psicothema 21, 531–536.
Cohen, J. (1988). Statistical power analysis for the behavioral sciences. Hillsdale, NJ: Lawrence Earlbaum Associates.
Conde-Ripoll, R., Escudero-Tena, A., Suárez-Clemente, V. J., and Bustamante-Sánchez, Á. (2023). Precompetitive anxiety and self-confidence during the 2023 Finnish Padel championship in high level men's players. Front. Psychol. 14:1301623. doi: 10.3389/fpsyg.2023.1301623
Conde-Ripoll, R., Muñoz, D., Sánchez-Alcaraz, B. J., and Escudero-Tena, A. (2024). Analysis and prediction of unforced errors in men’s and women’s professional padel. Biol. Sport 41, 3–9. doi: 10.5114/biolsport.2024.134763
Cox, R. H., Martens, M. P., and Russell, W. D. (2003). Measuring anxiety in athletics: the revised competitive state anxiety inventory-2. J. Sport Exerc. Psychol. 25, 519–533. doi: 10.1123/jsep.25.4.519
Crust, L., and Keegan, R. (2010). Mental toughness and attitudes to risk-taking. Pers. Individ. Differ. 49, 164–168. doi: 10.1016/j.paid.2010.03.026
Díaz-García, J., Gónzalez-Ponce, I., López-Gajardo, M. A., Manzano, D., Lobo-Triviño, D., Ruibo-Morales, A., et al. (2023a). How does mental fatigue influence cognitive processes during padel competition? A preliminary study of gender differences. Padel Sci. J. 1, 7–22. doi: 10.17398/2952-2218.1.7
Díaz-García, J., Roelands, B., Habay, J., González-Ponce, I., López-Gajardo, M. Á., García-Calvo, T., et al. (2023b). A multiday professional Padel tournament impairs sleep, mental toughness, and reaction time: a world Padel tour field study. Mot. Control. 27, 518–533. doi: 10.1123/mc.2022-0083
Driskell, T., Sclafani, S., and Driskell, J. E. (2014). Reducing the effects of game day pressures through stress exposure training. J. Sport Psychol. Action 5, 28–43. doi: 10.1080/21520704.2013.866603
Escudero-Tena, A., Sánchez-Alcaraz, B. J., García-Rubio, J., and Ibáñez, S. J. (2021). Analysis of game performance indicators during 2015–2019 world Padel tour seasons and their influence on match outcome. Int. J. Environ. Res. Public Health 18:4904. doi: 10.3390/ijerph18094904
González-Díaz, J., Gossner, O., and Rogers, B. W. (2012). Performing best when it matters most: evidence from professional tennis. J. Econ. Behav. Organ. 84, 767–781. doi: 10.1016/j.jebo.2012.09.021
Gould, D., Petlichkoff, L., and Weinberg, R. S. (1984). Antecedents of, temporal changes in, and relationships between CSAI-2 subcomponents. J. Sport Psychol. 6, 289–304. doi: 10.1123/jsp.6.3.289
Gröpel, P., and Mesagno, C. (2017). Choking interventions in sports: a systematic review. Int. Rev. Sport Exerc. Psychol. 12, 176–201. doi: 10.1080/1750984x.2017.1408134
Gucciardi, D. F., Jackson, B., Hodge, K., Anthony, D. R., and Brooke, L. E. (2015). Implicit theories of mental toughness: relations with cognitive, motivational, and behavioral correlates. Sport Exerc. Perform. Psychol. 4, 100–112. doi: 10.1037/spy0000024
Hassmén, P., Raglin, J. S., and Lundqvist, C. (2004). Intra-individual variability in state anxiety and self-confidence in elite golfers. J. Sport Behav. 27, 277–290.
International Padel Federation . (2024). List of countries associated with the international Padel federation (FIP). Available at:https://www.padelfip.com/es/
Jekauc, D., Fiedler, J., Wunsch, K., Mülberger, L., Burkart, D., Kilgus, A., et al. (2023). The effect of self-confidence on performance in sports: a meta-analysis and narrative review. Int. Rev. Sport Exerc. Psychol. 1–27, 1–27. doi: 10.1080/1750984x.2023.2222376
Kent, S., Devonport, T. J., Lane, A. M., Nicholls, W., and Friesen, A. P. (2018). The effects of coping interventions on ability to perform under pressure. J. Sports Sci. Med. 17, 40–55. doi: 10.1016/j.paid.2017.06.021
Knight, C., Lewis, F., and Mellalieu, S. (2016). Helping junior tennis players cope with their emotions. ITF Coach. Sport Sci. Rev. 24, 21–23. doi: 10.52383/itfcoaching.v24i68.175
Lange-Smith, S., Cabot, J., Coffee, P., Gunnell, K., and Tod, D. (2023). The efficacy of psychological skills training for enhancing performance in sport: a review of reviews. Int. J. Sport Exerc. Psychol. 16:2168725, 1–18. doi: 10.1080/1612197X.2023.2168725
Loupos, D., Fotini, M., Barkoukis, V., Tsorbatzoudis, H., Grouios, G., and Taitzoglou, I. (2008). Psychological and physiological changes of anxiety prior a swimming competition. Open Sports Med. J. 2, 41–46. doi: 10.2174/1874387000802010041
Low, W., Freeman, P. B., Butt, J., Stoker, M., and Maynard, I. (2023). The role and creation of pressure in training: perspectives of athletes and sport psychologists. J. Appl. Sport Psychol. 35, 710–730. doi: 10.1080/10413200.2022.2061637
Low, W. R., Sandercock, G. R. H., Freeman, P., Winter, M. E., Butt, J., and Maynard, I. (2021). Pressure training for performance domains: a meta-analysis. Sport Exerc. Perform. Psychol. 10, 149–163. doi: 10.1037/spy0000202
Lupo, C., Condello, G., Courel-Ibáñez, J., Gallo, C., Conte, D., and Tessitore, A. (2018). Effect of gender and match outcome on professional padel competition. RICYDE. Rev. Int. Cienc. 14, 29–41. doi: 10.5232/ricyde2018.05103
Mamassis, G., and Doganis, G. (2004). The effects of a mental training program on juniors pre-competitive anxiety, self-confidence, and tennis performance. J. Appl. Sport Psychol. 16, 118–137. doi: 10.1080/10413200490437903
Martens, R., Burton, D., Vealey, R. S., Bump, L. A., and Smith, D. E. (1990). “Development and validation of the competitive state anxiety inventory-2” in competitive anxiety in sport. Champaign: Human Kinetics, 117–190.
Martínez-Gallego, R., Villafaina, S., Crespo, M., and Fuentes-García, J. P. (2022). Gender and age influence in pre-competitive and post-competitive anxiety in young tennis players. Sustain. For. 14:4966. doi: 10.3390/su14094966
Martín-Miguel, I., Escudero-Tena, A., Muñoz, D., and Sánchez-Alcaraz, B. J. (2023). Performance analysis in Padel: a systematic review. J. Hum. Kinet. 89, 213–230. doi: 10.5114/jhk/168640
Mateo, M., Blasco-Lafarga, C., Martínez-Navarro, I., Guzmán, J. F., and Zabala, M. (2012). Heart rate variability and pre-competitive anxiety in BMX discipline. Eur. J. Appl. Physiol. 112, 113–123. doi: 10.1007/s00421-011-1962-8
Mecheri, S., Laffaye, G., Triolet, C., Leroy, D., Dicks, M., Choukou, M. A., et al. (2019). Relationship between split-step timing and leg stiffness in world-class tennis players when returning fast serves. J. Sports Sci. 37, 1962–1971. doi: 10.1080/02640414.2019.1609392
Mora, À., Cruz, J., and Torregrosa, M. (2009). Effects of a training program in communication styles of basketball coaches. Rev. Psicol. Deporte. 18, 299–302.
Morales, J., Alamo, J. M., García-Massó, X., Buscà, B., López, J. L., Serra-Añó, P., et al. (2014). Use of heart rate variability in monitoring stress and recovery in judo athletes. J. Strength Cond. Res. 28, 1896–1905. doi: 10.1519/JSC.0000000000000328
Navia, J. A., Avilés, C., Dicks, M., and Ruiz-Pérez, L. M. (2022). The spatiotemporal control of expert tennis players when returning first serves: a perception-action perspective. J. Sports Sci. 40, 16–23. doi: 10.1080/02640414.2021.1976484
Oudejans, R. R. D., and Pijpers, J. R. (2010). Training with mild anxiety may prevent choking under higher levels of anxiety. Psychol. Sport Exerc. 11, 44–50. doi: 10.1016/j.psychsport.2009.05.002
Ramón-Llín, J., Guzmán, J. F., Muñoz, D., Martínez-Gallego, R., Sánchez-Pay, A., and Sánchez-Alcaraz, B. J. (2022). Analysis of shots patterns finishing the point in Padel through decision-tree analysis. Rev. Int. Med. Cienc. Act. Fis. Deporte. 22, 933–947. doi: 10.15366/rimcafd2022.88.013
Souza, R. A., Beltran, O. A. B., Zapata, D. M., Silva, E., Freitas, W. Z., Junior, R. V., et al. (2019). Heart rate variability, salivary cortisol and competitive state anxiety responses during pre-competition and pre-training moments. Biol. Sport 36, 39–46. doi: 10.5114/biolsport.2018.78905
Spielberger, C. D., Gorsuch, R. L., and Lushene, R. E. (1970). Manual for the state-trait anxiety inventory. California: Consulting Psychologists Press.
Stoker, M., Lindsay, P., Butt, J., Bawden, M., and Maynard, I. W. (2016). Elite coaches’ experiences of creating pressure training environments. Int. J. Sport Psychol. 47, 262–281. doi: 10.7352/IJSP2016.47.262
Stoker, M., Maynard, I., Butt, J., Hays, K., Hughes, P., Lindsay, P., et al. (2019). The effect of manipulating individual consequences and training demands on experiences of pressure with elite disability shooters. Sport Psychol. 33, 221–227. doi: 10.1123/tsp.2017-0045
Stoker, M., Maynard, I., Butt, J., Hays, K., Lindsay, P., and Norenberg, D. A. (2017). The effect of manipulating training demands and consequences on experiences of pressure in elite netball. J. Appl. Sport Psychol. 29, 434–448. doi: 10.1080/10413200.2017.1298166
Tamorri, S. (2004). Neurociencias y deporte: psicología deportiva, procesos mentales del atleta [Neuroscience and sport: sport psychology, an athlete’s mental processes]. Barcelona: Paidotribo.
Ungureanu, A. N., Lupo, C., Contardo, M., and Brustio, P. R. (2024). Decoding the decade: analyzing the evolution of technical and tactical performance in elite padel tennis (2011–2021). Int. J. Sports Sci. Coach. 18:38. doi: 10.1177/17479541241228059
Vaske, J. J. (2008). Survey research and analysis: applications in parks, recreation and human dimensions. State College, PA: Venture.
Vealey, R. S., and Greenleaf, C. A. (2001). “Seeing is believing: understanding and using imagery in sport” in Applied sport psychology: personal growth to peak performance. ed. J. M. Williams (Mountain View, CA: Mayfield Publishing Company), 247–283.
Weinberg, R. S., and Gould, D. (2010). Fundamentos de psicología del deporte y del ejercicio físico. Barcelona: Editorial Medica Panamericana Sa de
Woodman, T., and Hardy, L. (2001). “Stress and anxiety” in Handbook of research on sport psychology. eds. R. Singer, H. A. Hausenblas, and C. M. Janelle (New York: Wiley), 290–318.
Keywords: psychology, confidence, anxiety, competition, practice, padel, CSAI-2R, STAI-S
Citation: Conde-Ripoll R, Escudero-Tena A and Bustamante-Sánchez Á (2024) Position and ranking influence in padel: somatic anxiety and self-confidence increase in competition for left-side and higher-ranked players when compared to pressure training. Front. Psychol. 15:1393963. doi: 10.3389/fpsyg.2024.1393963
Edited by:
Pierpaolo Sansone, Foro Italico University of Rome, ItalyReviewed by:
Juan Pedro Fuentes, University of Extremadura, SpainCorrado Lupo, University of Turin, Italy
Copyright © 2024 Conde-Ripoll, Escudero-Tena and Bustamante-Sánchez. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Álvaro Bustamante-Sánchez, YWx2YXJvLmJ1c3RhbWFudGVAdW5pdmVyc2lkYWRldXJvcGVhLmVz
†These authors have contributed equally to this work