SciELO - Scientific Electronic Library Online

 
vol.16 issue1Laterality training in the technical and offensive fundamentals of U-12 soccer players. Theoretical validationTheoretical validation of endurance-strength exercises for the combined sport climbing test, junior-senior category author indexsubject indexarticles search
Home Pagealphabetic serial listing  

My SciELO

Services on Demand

Article

Indicators

  • Have no cited articlesCited by SciELO

Related links

  • Have no similar articlesSimilars in SciELO

Share


Podium. Revista de Ciencia y Tecnología en la Cultura Física

On-line version ISSN 1996-2452

Rev Podium vol.16 no.1 Pinar del Río Jan.-Apr. 2021  Epub Apr 11, 2021

 

Original article

Structural analysis on flexibility training in men's artistic gymnastics

0000-0002-9545-574XNinfa Julissa Gálvez Eras1  * 

1Universidad Central del Ecuador. Ecuador.

ABSTRACT

The importance and transcendence of each variable that influences flexibility training in gymnasts, evaluated by specialists, could be modeled prospectively to consider medium and long term decisions related to the training management process. Knowing the implications and level of importance of each variable of interest could optimize sport preparation, being structural analysis a tool to achieve this goal. The objective of this work is to determine key variables on flexibility training in men's artistic gymnastics; it is based on a prospective research of qualitative analysis, applying matrices that interrelated several variables of importance, delimiting in the future how to model a flexibility training in men's artistic gymnastics. A questionnaire was applied to 13 specialists, studying nine variables, which indicates that the most influential variable is the coaches' Level of knowledge (NCE), and the most dependent is the training model (MoE). The variables training methods (ME) and training techniques (TE) stand out for having high levels of influence and dependence, the resulting variables would be the methodologies observations (MO); individualization (I) and training model (MoE), and the platoon variable the training age (EdE). It is evident, according to the specialists, the supreme value of the level of knowledge of the coaches on the development of flexibility, being a conditioning factor to be enhanced through improvement courses, guiding the use of the best training methods and techniques to optimally enhance flexibility in men's artistic gymnastics.

Key words: Structural analysis; Flexibility; Male artistic gymnastics.

INTRODUCTION

The theory and methodology of sports training includes numerous variables that interrelated allow perfecting individual and collective sports performance, modeling, among other aspects, the different capacities in function of enhancing the physical conditions presented by the organism generally related to the development of a certain activity or action.

Artistic gymnastics training involves the development of certain physical capacities catalogued as determinants, (Domínguez, Brito, Ayala, & Brito, 2017; Ilisástigui-Avilés, 2020) where the aforementioned authors specify the inherent characteristic of combining art and technique by establishing strategic actions for the development of the necessary determinant and conditioning physical capacities.

Among the most important abilities to train and control in artistic gymnastics is the ability to be flexible (Eras, et al., 2020; Lima, Brown, Li, Herat, & Behm, 2019; Ömer & Soslu, 2019), being developed through various specialized physical exercises, (Sánchez, Ramírez, & de Ávila Martínez, 2020) and using different techniques to enhance it, such as electro-stimulation and active and passive stimulation through physical exercises specifically oriented to the sport studied. (López-Bedoya, Vernetta-Santana, Lizaur Girón, Martínez-Patiño, & Ariza-Vargas, 2019).

The factors that establish the efficiency of flexibility training in artistic gymnastics are varied, highlighting the age, sport specialty, gender, training period, the organic individualities of each gymnast, the level of knowledge about the subject by the coaches and the physiological demands, (Moeskops, et al., 2019) among others.

Determining in times of pandemic which variables could influence in the future the flexibility training in artistic gymnastics starts from the practical implementation of each one of them, an impossible aspect given the current confinement, but entirely possible if a prospective analysis of structural type is used through the consultation of specialists, who could establish the importance and transcendence of each flexibility training variable applied. In such sense, structural analysis can be applied in sports for scenario building, serving as concepts, technique and tool for strategic planning, as indicated in Calero & Fernandez, (2007) or studying several key variables through a structural analysis, (Calero, Fernandez, & Fernandez, 2008; Lorenzo, Martinez, Morales, Campoverde, & Parra, 2015; Fernández Lorenzo, Arias Puedmag, Padilla Oyos, Calero Morales, & Parra Cárdenas, 2017) given that since such analysis has a systemic basis, it is especially applicable in research that requires a good understanding of the object of study through a collective reflection using direct relationship matrices, including the interrelationships of its components.

According to the bibliographic consultation carried out, it has not been possible to determine for the Ecuadorian environment a work that directly applies structural analysis in artistic gymnastics, as a technique that defines through consultation of specialists and experts the influence and interrelation of variables that could influence in the future in the enhancement of the capacity of flexibility. In this sense, the present research ventures into Ecuador, establishing a descriptive-analytical research of prospective type, feasible in terms of material and human resources, besides having relevance with the field of study of the master's degree in sports training of the Universidad Central del Ecuador.

Research activity in the area of sports training should promote improvement in sport-specific capabilities, with proven influence on the performance and results of athletes, from the stage of sport initiation. (Hsieh, Lin, Chang, Huang, & Hung, 2017; Kadir, Irfanuddin, Fediani, Santoso, & Dewi, 2018) In the case of this research, specifically, it will contribute to have a methodological tool that allows coaches to perform activities aimed at enhancing one of the fundamental physical abilities in rhythmic gymnastics, such as flexibility, an alternative that as a first step of research will have a theoretical validation by specialists who will prospectively describe some of the most important variables that in the future could contribute to the effective training of the physical ability of flexibility.

For rhythmic gymnastics athletes, especially in the initiation stage, achieving optimal levels of flexibility will contribute specifically to achieve ranges of joint movement essential for the execution of the technique. If children in training are able to work in a coordinated manner, they will be able to exhibit excellent routines in gymnastic competitions and events, learn the techniques associated with the sport more easily and achieve movements of greater amplitude and, therefore, of greater value in competitions. The contribution of the academy to the development of national sport is fundamental, the effort of research in the framework of academic programs should be directed to the solution of concrete problems of sports practice, as is the case of the present work, which additionally will apply a descriptive-analytical research of prospective order, being viable in the sense of not being able to conduct a field research or quasi-experimental or experimental type due to the problems caused by the Covid-19 pandemic, making it impossible to implement a proposal for concrete intervention in gymnasts.

The Concentración Deportiva de Pichincha has always been an institution that has dedicated efforts to improve its strategies and training plans, in order to achieve results that allow it to stand out at the national and regional level; in this case with the methodological guidance of the Ecuadorian Gymnastics Federation and the FIG. The result of the research will directly benefit athletes of the Pichincha children's provincial team, who will improve their flexibility, with benefits not only in relation to performance, but also to the physical and mental health of the athlete, especially through the prevention of accidents related to training.

From the indirect point of view, coaches will benefit, who in turn require to permanently raise their level of preparation for the demands that the sport imposes at national and international level, having a methodological tool that will serve as a guide for the analysis of those variables that prospectively can significantly influence the design of flexibility training methodologies in gymnasts, which after being validated by experts, will be able to be applied in the training of the provincial team, with direct benefits on the group of athletes.

In this sense, the purpose of the research is to determine key variables on flexibility training in men's artistic gymnastics.

MATERIAL AND METHODS

Prospective research of qualitative analysis based on the methodology of (Godet, 2000), applying matrices that will interrelate several variables described below of importance that will delimit in the future how to model a flexibility training in men's artistic gymnastics. A questionnaire will be applied to 13 national and international specialists who meet three fundamental criteria of inclusion (at least ten years of practical experience as a coach in men's artistic gymnastics; at least third degree of higher education in Physical Activity and Sport Sciences or related; demonstrable results in the national and international sphere in the sport studied), studying nine variables described below:

  1. Observational methodologies (OM): related to records of sport performance and therefore of the control of results.

  2. Coaches' level of knowledge (NCE): related to the theoretical-practical capacity of coaches to apply knowledge in relation to the needs of sports preparation.

  3. Training stages (EE): related to the application of physical stimuli (Flexibility) according to the period of sport preparation.

  4. Technologies (T): related to the application of new technologies in the process of sports training management applied to flexibility.

  5. Individualization (I): related to the application of the necessary physical stimuli according to the principle of individualization of training.

  6. Training methods (ME): related to the prioritized application of certain training methods over others.

  7. Training techniques (TE): related to the prioritized application of certain training techniques over others.

  8. Training age (EdE): related to the prioritized application of physical loads in relation to the age range or biological evolution of the gymnast.

  9. Training model (MoE): related to the prioritized application of certain training models over others.

A Likert-type questionnaire will be implemented with four levels between 0-3 points, assigning a quantitative and qualitative value to each point as indicated in Hernández, Fernández, & Baptista (2010), described as follows:

  • 0: no influence

  • 1: weak.

  • 2: medium.

  • 3: strong.

The results collected will be submitted to the MICMAC, (MICMAC, 2003) which will allow classifying the variables in their direct and indirect relationships, delimiting the importance of each variable analyzed, the mobility of each one of them (more influential and not very dependent) and the linking ones (very influential and dependent, being highly unstable).

The specialists completed matrices of direct relationships between the variables, with the support of Microsoft Excel software, from the consolidation of which the following matrix of direct relationships was obtained (Table 1), which is the fundamental input for processing with the MICMAC software.

Table 1 - Consolidated matrix of direct relationships between variables 

Variables MO NCE EE T I ME TE EdE MoE
MO 0 1 2 2 1 3 3 0 3
NCE 3 0 3 2 3 3 3 1 3
EE 2 1 0 2 2 3 3 1 3
T 3 2 1 0 2 3 3 0 3
I 2 0 2 1 0 2 2 0 3
ME 3 1 3 2 2 0 3 0 3
TE 3 1 3 2 2 3 0 0 3
EdE 2 0 3 1 2 3 3 0 3
MoE 3 1 3 2 2 0 3 1 0

Source: Consolidated matrix of direct relationships between variables

RESULTS AND DISCUSSION

The first result offered by the application of the MICMAC method is shown in Table 2, which are the indirect relationships between variables, which are calculated from the direct relationships observed by the specialists.

Table 2 Matrix of indirect influences between variables 

Variables MO NCE EE T I ME TE EdE MoE Total
MO 549 223 521 411 411 529 610 85 636 3975
NCE 766 306 710 553 566 669 804 117 828 5319
EE 617 252 565 459 461 571 670 100 693 4388
T 630 259 564 451 466 577 676 98 699 4420
I 445 176 410 317 329 416 470 66 501 3130
ME 634 248 593 451 465 539 665 91 687 4373
TE 634 248 593 451 465 566 638 91 687 4373
EdE 617 249 571 444 458 560 659 94 681 4333
MoE 584 225 548 412 421 441 603 85 594 3913
Total 5476 2186 5075 3949 4042 4868 5795 827 6006 ---

Source: Own elaboration based on MICMAC software processing.

According to the previous results, the most influential variable in the system is the level of knowledge of the coaches (NCE) and the most dependent is the training model (MoE). The Training Methods (MoE) and Training Techniques (TE) variables stand out for having high levels of influence and dependence.

Figure 1 shows the classification of the variables in the plane of indirect influences and dependencies, positioned as follows:

  • Quadrant one (motor variable): level of knowledge of coaches (NCE).

  • Quadrant two (linking variables): technologies (T); training methods (ME); training techniques (TE) and training stages (EE).

  • Quadrant three (resultant variables): methodologies observations (MO); individualization (I) and training model (MoE).

  • Middle band (platoon variable): age of training (EdE).

Source: LIPSOR-MICMAC software: LIPSOR-MICMAC software

Fig. 1 - Map of indirect influences/dependencies between variables  

The previous plan allows determining the key variables in the study, which are, according to the methodology, the motor and linking variables, i.e., Level of knowledge of the coaches (NCE); technologies (T); training methods (ME); training techniques (TE) and stages of training (EE). These are variables under study with a high level of influence and dependence on the rest, which according to the position in the plane have a lower level of importance in the study due to their high levels of dependence and low influence (the resulting ones described above).

In the case of the training age variable (EdE), it was placed as a variable of the platoon, that is to say, with a medium level of influence and dependence, so it is not key in the study. The considerations of the specialists in this regard are derived, in that flexibility training, being a determining capacity in gymnastics, should be trained throughout the active life of the athlete, as is logical with the relative differences that this entails, given that age influences the levels of flexibility and other physical abilities, (Vaquero-Cristóbal, González-Moro, Ros, & Alacid, 2012) which merits applying training strategies to maintain the levels of joint flexibility as the age of the gymnast increases.

Figure 2 shows the most important relationships among variables.

Fig. 2 - Graph of indirect influences among variables  

As can be seen, the strongest relationships are between the variables Level of knowledge of the coaches (NCE), on the Coaching Techniques (TE) and on the Coaching Model (MoE).

The level of knowledge of the coaches towards the phenomenon they manage, has been a variable of vital importance, evidencing its importance in other works such as the one arranged in Calero, Fernández, & Fernández (2008), establishing the greatest number of relationships of importance with other variables, as shown by the authors cited above. On the other hand, Martín & Ruiz (2010) when comparing some variables between high performance coaches and lower level coaches, highlight the role of the knowledge acquired about the sport modality as a notable factor of success, as well as the way of treating and motivating them. In this sense, a prospective strategy to be considered in a significant way would be to outline the pertinent actions to improve the level of knowledge of male artistic gymnastics coaches on the enhancement of physical abilities in general, and flexibility in particular.

The variable "Training models" is highlighted by the specialists consulted as the one with the greatest dependence on the rest of the variables studied. It is useful to highlight the existence of reproductions of training models typical of other training categories (ATR, Intensive, Blocks, Periodization etc. ), not appropriate to all teams and sports modalities, as pointed out by Siff & Verkhoshansky (2004), given the dependence they have on various factors, such as biological maturity, the competitive period, the number of key competitions, among others, for which Calero (2019) evidences such dependence in the modeling of the content of the preparation of the athlete in three visions of training, the vision of training according to the characteristics of the sport, the athlete and the opponent, which will organize the physical stimuli above the rest of the other existing criteria.

The variables training methods (ME) and training techniques (TE) possess high levels of influence and dependence, which like the modeling of sports training (MoE) will depend on the demands of the sport modality, which for gymnastics highlights the repetition method and the explanatory-demonstrative, (Gómez & Navarro, 2019), including the enhancement of flexibility throughout the gymnast's active life. (Eras, et al., 2020; Lima, Brown, Li, Herat, & Behm, 2019; Ömer & Soslu, 2019; Ilisástigui-Avilés, 2020) The above is useful to delimit, since the best ways to achieve the objectives of a training macro cycle is to correctly apply the best training methods and techniques in the improvement of physical skills and abilities, including joint flexibility.

Another variable of relatively little importance for the present study is the use of technologies (T), which for the application of flexibility in male rhythmic gymnasts does not usually have an added value, given the repeated use of the same training processes of decades ago described by Ayala, de Baranda, & Cejudo (2012) for the case of stretching, and for the case of movements aimed at increasing the range of motion of a joint in healthy subjects the already classic techniques mentioned by Riestra & Flix (2002). Therefore, the technology applied to the increase of flexibility, although it is considered by the specialists consulted, depends more on the level of knowledge of the trainers than on the real contributions they would have on the enhancement of the articular range of motion.

Another issue would be for the application of the principle of individualization (I) to increase the range of articular movements in gymnasts, for which Issurin, (2019) classifies it as a specialized principle of sports training with notable contributions, but classified in the present research as a resultant variable, which depends on the needs of each athlete, and as is logical of the coach's ability to determine the need and draw individualized models of sports preparation.

CONCLUSSIONS

In conclusion, it is stated that the structural analysis carried out shows, in the opinion of the specialists, the supreme value of the level of knowledge of the coaches on the development of flexibility, being a conditioning factor to be strengthened by means of improvement courses, which among other aspects should guide the use of the best training methods and techniques to optimally enhance the determining capacity of flexibility in men's artistic gymnastics.

Acknowledgments

To the Master's Program in Sports Training of the Universidad Central del Ecuador

REFERENCIAS BIBLIOGRÁFICAS

Ayala, F., de Baranda, P. S., & Cejudo, A. (2012). El entrenamiento de la flexibilidad: técnicas de estiramiento. Revista andaluza de Medicina del Deporte, 5(3), 105-112. doi:10.1016/S1888-7546(12)70016-3 [ Links ]

Calero, S., & Fernández, A. (2007). Un acercamiento a la construcción de escenarios como herramienta para la planificación estratégica de la Cultura Física en Cuba. Lecturas: Educación Física y Deportes, 12(114), 1-7. https://www.efdeportes.com/efd114/construccion-de-escenarios-para-la-planificacion-estrategica.htmLinks ]

Calero, S., Fernández, A., & Fernández, R. R. (2008). Estudio de variables clave para el análisis del control del rendimiento técnico-táctico del voleibol de alto nivel. Lecturas: Educación Física y Deportes , 13(121), 1-13. https://www.efdeportes.com/efd121/control-del-rendimiento-tecnico-tactico-del-voleibol.htmLinks ]

Calero., S. (2019). Fundamentos del entrenamiento deportivo optimizado. Departamento de Ciencias Humanas y Sociales. Curso de Postgrado de la Maestría en Entrenamiento Deportivo. XIII Promoción. Quito: Universidad de las Fuerzas Armadas ESPE (págs. 2-76). https://www.researchgate.net/publication/320053667_Fundamentos_del_entrenamiento_optimizado_Como_lograr_un_alto_rendimiento_deportivo_en_el_menor_tiempo_posibleLinks ]

Domínguez, D., Brito, E., Ayala, E., & Brito, J. (2017). Gimnasia artística femenina: diseño coreográfico en la composición de manos libres. Lecturas: Educación Física y Deportes , 22(230), 1-5. https://www.efdeportes.com/efd230/gimnasia-artistica-femenina-manos-libres.htmLinks ]

Eras, N. J., Rojas, W. F., Jácome, C. A., Díaz, R. J., Boada, S. R., & Enríquez, S. C. (2020). Potenciación de la capacidad flexibilidad en la gimnasia artística masculina infantil. Lecturas: Educación Física y Deportes , 24(261), 46-56. https://www.efdeportes.com/efdeportes/index.php/EFDeportes/article/view/1943/1135Links ]

Fernández Lorenzo, A., Arias Puedmag, D. E., Padilla Oyos, C. R., Calero Morales, S., & Parra Cárdenas, H. A. (2017). Alianzas y conflictos entre grupos de interés de un hospital militar: aplicación del método Mactor. Revista Cubana de Investigaciones Biomédicas, 36(1), 1-14. http://www.revibiomedica.sld.cu/index.php/ibi/article/view/39/37Links ]

Godet, M. (2000). La caja de herramientas de la prospectiva estratégica. París: Gerpa. http://es.laprospective.fr/dyn/espagnol/bo-lips-esp.pdfLinks ]

Gómez, E. D., & Navarro, E. (2019). Propuesta de actividades para la participación productiva en las clases de gimnasia aerobia de salón. Revista Internacional de Deportes Colectivos, 37, 49-68. http://www.asesdeco.com/images/pdf/37DuharteLinks ]

Hernández, R., Fernández, C., & Baptista, P. (2010). Metodología de la Investigación (4 ed.). México: MacGraw-Hill. [ Links ]

Hsieh, S. S., Lin, C. C., Chang, Y. K., Huang, C., & Hung, T. M. (2017). Effects of Childhood Gymnastics Program on Spatial Working Memory. Medicine and Science in Sports and Exercise, 49(12), 2537-2547. doi:10.1249/MSS.0000000000001399 [ Links ]

Ilisástigui-Avilés, M. (2020). La flexibilidad como dirección del rendimiento deportivo. Arrancada, 20(36), 80-88. http://revistarrancada.cujae.edu.cu/index.php/arrancada/article/view/308Links ]

Issurin, V. (2019). Entrenamiento deportivo. Periodización en bloques. Barcelona: Paidotribo. [ Links ]

Kadir, M. R., Irfanuddin, I., Fediani, Y., Santoso, B., & Dewi, M. R. (2018). The recommended aerobic gymnastics has better effects on improving cognitive and motoric ability in children. Bioscientia Medicina: Journal of Biomedicine and Translational Research, 2(3), 25-34. doi:10.32539/bsm.v2i3.57 [ Links ]

Lima, C. D., Brown, L. E., Li, Y., Herat, N., & Behm, D. (2019). Periodized versus non-periodized stretch training on gymnasts flexibility and performance. International journal of sports medicine, 40(12), 779-788. https://ro.ecu.edu.au/ecuworkspost2013/7207/Links ]

López-Bedoya, J., Vernetta-Santana, M., Lizaur Girón, P., Martínez-Patiño, M. J., & Ariza-Vargas, L. (2019). Comparación de técnicas de entrenamiento de flexibilidad (FNP) con y sin electroestimulación. Revista Internacional de Medicina y Ciencias de la Actividad Física y del Deporte, 19(74), 277-292. https://recyt.fecyt.es/index.php/RIMCAFD/article/view/73380Links ]

Lorenzo, A. F., Martínez, D. R., Morales, S. C., Campoverde, M. R., & Parra, H. (2015). Factores clave para el desarrollo de la educación a distancia en la universidad contemporánea. Una aplicación del método de análisis estructural. Lecturas: Educación Física y Deportes , 20(211), 1-9. https://efdeportes.com/efd211/el-desarrollo-de-la-educacion-a-distancia.htmLinks ]

Martín, J. J., & Ruiz, G. (2010). El entrenador de alto rendimiento deportivo y su contraste con entrenadores de menor nivel: estudio en la modalidad de karate en España. European Journal of Human Movement, 24, 107-119. https://www.redalyc.org/pdf/2742/274219444008.pdfLinks ]

MICMAC. (2003). Matriz de Impactos Cruzados. Metodología Aplicada a una Clasificación. US: LIPSOR-EPITA-MICMAC. [ Links ]

Moeskops, S., Oliver, J. L., Read, P. J., Cronin, J. B., Myer, G. D., & Lloyd, R. S. (2019). The Physiological Demands of Youth Artistic Gymnastics: Applications to Strength and Conditioning. Strength & Conditioning Journal, 41 (1), 1-13. https://journals.lww.com/nsca-scj/Abstract/2019/02000/The_Physiological_Demands_of_Youth_Artistic.1.aspxLinks ]

Ömer, Ö. Z., & Soslu, R. (2019). Comparison of the Static Balance, Strength and Flexibility Characteristics of the University Students Who Taken Artistic Gymnastic Lesson. Turkish Journal of Sport and Exercise, 21(2), 229-233 https://pdfs.semanticscholar.org/54b0/2a1b1ce0dda95362c3ce1b7d0980b8e57bed.pdfLinks ]

Riestra, A. I., & Flix, J. T. (2002). Mil 4 ejercicios de flexibilidad. Barcelona: Editorial Paidotribo. [ Links ]

Sánchez, L. L., Ramírez, L. R., & de Ávila Martínez, Y. (2020). Ejercicios de flexibilidad para la gimnasia artística en el sexo masculino. Revista científica Olimpia, 17, 794-806. https://revistas.udg.co.cu/index.php/olimpia/article/view/1702Links ]

Siff, M. C., & Verkhoshansky, Y. (2004). Superentrenamiento (Vol. 24). Barcelona: Editorial Paidotribo . [ Links ]

Vaquero-Cristóbal, R., González-Moro, I., Ros, E., & Alacid, F. (2012). Evolución de la fuerza, flexibilidad, equilibrio, resistencia y agilidad de mujeres mayores activas en relación con la edad. Motricidad. European Journal of Human Movement, 29, 29-47. https://www.redalyc.org/pdf/2742/274224827003.pdfLinks ]

Received: November 20, 2020; Accepted: December 06, 2020

*Autor para la correspondencia: njgalvez@uce.edu.ec

Los autores declaran no tener conflictos de intereses.

Ninfa Julissa Gálvez Eras: Concepción de la idea, búsqueda y revisión de literatura, confección de instrumentos, aplicación de instrumentos, recopilación de la información resultado de los instrumentos aplicados, análisis estadístico, confección de tablas, gráficos e imágenes, confección de base de datos, asesoramiento general por la temática abordada, redacción del original (primera versión), revisión y versión final del artículo, corrección del artículo, coordinador de la autoría, traducción de términos o información obtenida, revisión de la aplicación de la norma bibliográfica aplicada.

Creative Commons License