Development of Ball Skills: Difference between revisions
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== Introduction == | == Introduction == | ||
Ball skills involve applying force to an object to propel it. The actions of throwing, kicking, and striking follow similar developmental patterns due to the shared mechanical principles of object projection. Among these, the overhand throw for distance has been the most extensively researched by scientists. Ball skills are important for many games and sports<ref>Stodden DF, Gao Z, Langendorfer SJ, Goodway JD. [https://www.researchgate.net/publication/264676185_Dynamic_Relationships_Between_Motor_Skill_Competence_and_Health-Related_Fitness_in_Youth Dynamic relationships between motor skill competence and health-related fitness in youth]. Pediatric Exercise Science. 2014; 26(3): 231-241</ref>. Movements like throwing and catching are crucial for early childhood<ref>Pratiwi E, Hernawan H, Fachrezzy F, Anggara N, Lestari H, Gumantan A, Touvan Juni SY, Mappaompo MA, Juhannis J, Sinulingga A. [https://dialnet.unirioja.es/servlet/articulo?codigo=9432986 Learning model of basic manipulative movements of throwing and catching.] Federación Española de Asociaciones de Docentes de Educación Fisica. 2024; 55: 452-460</ref>, and engaging in such games not only enhances gross motor skills<ref>Sari EP, Izzah ON. The Improvement of Gross Motor Development on Pre-School Through Playing Throw and Catch Ball. Nurse and Holistic Care. 2021; 1(1): 7-13</ref> but also supports overall growth and development in children<ref>Rosita T. Nurhayati S, Jumiatin D, Rosmiati A, Abdu WJ. [https://www.researchgate.net/publication/344541322_Journal_of_Critical_Reviews_USING_TRADITIONAL_ROLE-PLAY_GAMES_BY_ADULTS_TO_NURTURE_A_CULTURE_OF_COOPERATION_AMONG_CHILDREN_AMIDST_WIDE-SPREAD_ENGAGEMENT_IN_ONLINE_GAMES_WITHIN_TODAY%27S_TECHNOLOGICAL_SO Using traditional role-play games by adults to nurture a culture of cooperation among children amidst wide-spread engagement in online games within today's technological society.] Journal of Critical Reviews. 2020; 7(7): 183-186</ref>. The ability to throw or catch is strongly linked to the development of movement skills used in sports later in life<ref>Lola A, Tzetzis G, Manou V, Alexandropoulou S. [http://dlibra.bg.ajd.czest.pl:8080/dlibra/docmetadata?id=6618&from=publication Attentional focus on learning fundamental movement skills in children]. Physical Activity Review. 2022; 10(1): 60-67</ref>. | Ball skills involve applying force to an object to propel it. The actions of throwing, kicking, and striking follow similar developmental patterns due to the shared mechanical principles of object projection. Among these, the overhand throw for distance has been the most extensively researched by scientists. Ball skills are important for many games and sports<ref>Stodden DF, Gao Z, Langendorfer SJ, Goodway JD. [https://www.researchgate.net/publication/264676185_Dynamic_Relationships_Between_Motor_Skill_Competence_and_Health-Related_Fitness_in_Youth Dynamic relationships between motor skill competence and health-related fitness in youth]. Pediatric Exercise Science. 2014; 26(3): 231-241</ref>. Movements like throwing and catching are crucial for early childhood<ref>Pratiwi E, Hernawan H, Fachrezzy F, Anggara N, Lestari H, Gumantan A, Touvan Juni SY, Mappaompo MA, Juhannis J, Sinulingga A. [https://dialnet.unirioja.es/servlet/articulo?codigo=9432986 Learning model of basic manipulative movements of throwing and catching.] Federación Española de Asociaciones de Docentes de Educación Fisica. 2024; 55: 452-460</ref>, and engaging in such games not only enhances gross motor skills<ref>Sari EP, Izzah ON. The Improvement of Gross Motor Development on Pre-School Through Playing Throw and Catch Ball. Nurse and Holistic Care. 2021; 1(1): 7-13</ref> but also supports overall growth and development in children<ref>Rosita T. Nurhayati S, Jumiatin D, Rosmiati A, Abdu WJ. [https://www.researchgate.net/publication/344541322_Journal_of_Critical_Reviews_USING_TRADITIONAL_ROLE-PLAY_GAMES_BY_ADULTS_TO_NURTURE_A_CULTURE_OF_COOPERATION_AMONG_CHILDREN_AMIDST_WIDE-SPREAD_ENGAGEMENT_IN_ONLINE_GAMES_WITHIN_TODAY%27S_TECHNOLOGICAL_SO Using traditional role-play games by adults to nurture a culture of cooperation among children amidst wide-spread engagement in online games within today's technological society.] Journal of Critical Reviews. 2020; 7(7): 183-186</ref>. The ability to throw or catch is strongly linked to the development of movement skills used in sports later in life<ref>Lola A, Tzetzis G, Manou V, Alexandropoulou S. [http://dlibra.bg.ajd.czest.pl:8080/dlibra/docmetadata?id=6618&from=publication Attentional focus on learning fundamental movement skills in children]. Physical Activity Review. 2022; 10(1): 60-67</ref><ref name=":4">Veldman SLC, Palmer KK, Okely AD, Robinson LE. Promoting ball skills in preschool-age girls. Journal of Science and Medicine in Sport. 2017; 20(1): 50-54</ref><ref name=":5">Robinson LE, Veldman SLC, Palmer KK, Okely AD. A Ball Skills Intervention in Preschoolers. Medicine & Science in Sports & Exercise. 2017; 49(11): 2234-2239</ref>. | ||
== Overarm throwing == | == Overarm throwing == | ||
| Line 147: | Line 147: | ||
== Catching == | == Catching == | ||
Catching is a skill where a child intercepts and secures an object, typically with their hands or a tool like a glove. This skill is essential in various sports and activities, such as baseball, basketball, and recreational games<ref name=":0">Chang SH, Lim J, Lee J, Han K. An Investigation of Factors on Catching Performance: A Constraints-led Approach. International Journal of Human Movement Science. 2016; 10(2): 99-111</ref>. It is complex because of many factors like hand-eye coordination, the ability of tracking and anticipating the ball, and the manipulation of fine motor skills<ref name=":0" />. | Catching is a skill where a child intercepts and secures an object, typically with their hands or a tool like a glove. This skill is essential in various sports and activities, such as baseball, basketball, and recreational games<ref name=":0">Chang SH, Lim J, Lee J, Han K. An Investigation of Factors on Catching Performance: A Constraints-led Approach. International Journal of Human Movement Science. 2016; 10(2): 99-111</ref>. It is complex because of many factors like hand-eye coordination, the ability of tracking and anticipating the ball, and the manipulation of fine motor skills<ref name=":0" /><ref>Licari MK, Reynolds JE, Tidman S. Visual tracking behaviour of two-handed catching in boys with developmental coordination disorder. Research in Developmental Disabilities. 2018; 83: 280-286</ref>. | ||
'''Characteristics of early catching''' | '''Characteristics of early catching''' | ||
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** Gender<ref name=":0" />: mean percentage of succesfull catches is greater for boys than for girls. | ** Gender<ref name=":0" />: mean percentage of succesfull catches is greater for boys than for girls. | ||
** Stereo vision<ref name=":0" />: this is one of many possible information sources for accurately perceiving objects in depth, and it becomes increasingly important as an object enters one's immediate action space. A lack of stereo vision is closely linked to reduced performance in unimanual catching. Since stereo vision aids in depth perception, it can provide the catcher with crucial temporal and spatial information. | ** Stereo vision<ref name=":0" />: this is one of many possible information sources for accurately perceiving objects in depth, and it becomes increasingly important as an object enters one's immediate action space. A lack of stereo vision is closely linked to reduced performance in unimanual catching. Since stereo vision aids in depth perception, it can provide the catcher with crucial temporal and spatial information. | ||
** Age<ref name=":0" />: catching performance improves with age. | ** Age<ref name=":0" /><ref name=":6">Westendorp M, Houwen S, Hartman E, Mombarg R, Smith J, Visscher C. Effect of a ball skill intervention on children's ball skills and cognitive functions. Medicine and Science in Sports and Exercises. 2014; 46: 414-422</ref>: catching performance improves with age. | ||
** Experience<ref name=":0" />: children who have experience in participating in sports are more likely to be more proficient in catching. | ** Experience<ref name=":0" />: children who have experience in participating in sports are more likely to be more proficient in catching. | ||
** Motivation<ref>Ediwitoko R, Hasmyati, Asran. [https://etdci.org/journal/ijrer/article/view/312 How Do Primary School Students Perform? Fundamental Movement Skills for Throwing Catch Baseball]. ETDC: Indonesian Journal of Research and Educational Review. 2022; 1(4): 499-509</ref>: if children are enthusiastic about participating, they will achieve their goals easier. | ** Motivation<ref>Ediwitoko R, Hasmyati, Asran. [https://etdci.org/journal/ijrer/article/view/312 How Do Primary School Students Perform? Fundamental Movement Skills for Throwing Catch Baseball]. ETDC: Indonesian Journal of Research and Educational Review. 2022; 1(4): 499-509</ref>: if children are enthusiastic about participating, they will achieve their goals easier. | ||
** Learning disorder<ref name=":6" /> | |||
* Task constraints: | * Task constraints: | ||
** Ball location<ref name=":0" />: for children (5-6 years), a ball directed at the torso brings out more advanced developmental patterns. If a ball is tossed too far away from or too close to a child's body, they will be frequently more unsuccesful. | ** Ball location<ref name=":0" />: for children (5-6 years), a ball directed at the torso brings out more advanced developmental patterns. If a ball is tossed too far away from or too close to a child's body, they will be frequently more unsuccesful. | ||
| Line 207: | Line 208: | ||
* Environmental constraints: | * Environmental constraints: | ||
** Posture<ref name=":0" />: good catchers do not show any improvements in catching while sitting or standing, but children less proficient catch more balls when in a seated position. | ** Posture<ref name=":0" />: good catchers do not show any improvements in catching while sitting or standing, but children less proficient catch more balls when in a seated position. | ||
** Instruction<ref name=":0" />: the instruction given to children on how to catch is important and must be fitting for the child (internal vs. external focus, explicit vs. implicit learning). | ** Instruction<ref name=":0" /><ref name=":6" />: the instruction given to children on how to catch is important and must be fitting for the child (internal vs. external focus, explicit vs. implicit learning). | ||
** Ball size<ref name=":0" />: larger balls can improve the catching patterns in young children. | ** Ball size<ref name=":0" />: larger balls can improve the catching patterns in young children. | ||
** Ball color<ref name=":0" />: children are more succesful at catching balls of their preferred colour compared to balls of other colours. | ** Ball color<ref name=":0" />: children are more succesful at catching balls of their preferred colour compared to balls of other colours. | ||
== Gender differences == | == Gender differences == | ||
Boys tend to outperform girls on object-control skills<ref name=":1">Bolger LE, Bolger LA, O'Neill C, Coughlan E, O'Brien W, Lacey S, Bardid F. Global Levels of fundamental motor skills in children: A systematic review. Journal of Sports Sciences. 2020; 39(7): 717-753</ref>. These differences could be examined from a biological perspective, even though boys and girls generally share similar physical attributes such as body type, strength, and limb lengths before puberty<ref>Malina RM, Bouchard C, Bar-Or O. Growth, maturation, and physical activity. Human Kinetics. 2004</ref>. It is likely that sex differences are influenced by the types of activities children engage in. Research has indicated that the activities boys and girls participate in are heavily shaped by social and environmental factors, including the influence of family, peers, teachers, and the physical environment<ref>Hardy LL, King L, Farrell L, Macniven R, Howlett S. Fundamental movement skills among Australian preschool children. Journal of Science and Medicine in Sport / Sports Medicine Australia. 2010; 13(5): 503-508</ref>. Boys are more likely to participate in ball sports (object-control related activities), while girls tend to be more involved in dance and gymnastics (locomotor-related activities)<ref>Bardid F, Hyben F, Lenoir M, Seghers J, De Martelaer K, Goodway JD, Deconinck FJA. [https://strathprints.strath.ac.uk/58163/ Assessing fundamental motor skills in Belgian children aged 3-8 years highlights differences to US reference sample]. Acta Pediatrica, International Journal of Paediatrics. 2016; 105(6): e281-e290</ref>. | Boys tend to outperform girls on object-control skills<ref name=":1">Bolger LE, Bolger LA, O'Neill C, Coughlan E, O'Brien W, Lacey S, Bardid F. Global Levels of fundamental motor skills in children: A systematic review. Journal of Sports Sciences. 2020; 39(7): 717-753</ref><ref name=":4" /><ref name=":5" />. These differences could be examined from a biological perspective, even though boys and girls generally share similar physical attributes such as body type, strength, and limb lengths before puberty<ref>Malina RM, Bouchard C, Bar-Or O. Growth, maturation, and physical activity. Human Kinetics. 2004</ref>. It is likely that sex differences are influenced by the types of activities children engage in. Research has indicated that the activities boys and girls participate in are heavily shaped by social and environmental factors, including the influence of family, peers, teachers, and the physical environment<ref>Hardy LL, King L, Farrell L, Macniven R, Howlett S. Fundamental movement skills among Australian preschool children. Journal of Science and Medicine in Sport / Sports Medicine Australia. 2010; 13(5): 503-508</ref>. Boys are more likely to participate in ball sports (object-control related activities), while girls tend to be more involved in dance and gymnastics (locomotor-related activities)<ref>Bardid F, Hyben F, Lenoir M, Seghers J, De Martelaer K, Goodway JD, Deconinck FJA. [https://strathprints.strath.ac.uk/58163/ Assessing fundamental motor skills in Belgian children aged 3-8 years highlights differences to US reference sample]. Acta Pediatrica, International Journal of Paediatrics. 2016; 105(6): e281-e290</ref>. | ||
At the age of 5 years 3 months old, 60% of boys have developed a mature one-handed overarm throwing technique<ref name=":4" />. In contrast, girls did not achieve this milestone until they are 8 years and 6 months old<ref name=":4" />. | |||
== Ball skills for the pediatric physical therapist == | |||
These skills do no develop on their own<ref name=":2">Barnett LM, Stodden D, Cohen KE, Smith JJ, Lubans DR, Lenoir M, Livonen S, Miller AD, Laukkanen A, Dudley D, Lander NJ, Brown H, Morgan PJ. [https://www.researchgate.net/publication/299981785_Fundamental_Movement_Skills_An_Important_Focus Fundamental movement skills: An important focus.] Journal of Teaching in Physical Education: JPTE. 2016; 35(3): 219-225.</ref>; they need to be taught and developed through structured instruction, enough practice opportunities, and constructive feedback<ref name=":6" /><ref name=":3">Gallahue DL, Ozmun JC, Goodway JD. Understanding motor development: infants, children, adolescents, adults (7th ed.). McGraw-Hill. 2012</ref><ref name=":1" />. When practicing kicking skills with a child the following things are important: | |||
* Emphasizing speed over accuracy in children's motor learning might promote greater development of ballistic skills<ref>Molina SL, Bott TS, Stodden DF. [https://www.researchgate.net/publication/330523258_Applications_of_the_Speed-Accuracy_Trade-off_and_Impulse-Variability_Theory_for_Teaching_Ballistic_Motor_Skills Applications of the speed-accuracy trade-off and impulse-variability theory for teaching ballistic motor skills]. Journal of Motor Behavior. 2019; 51(6): 690-697</ref><ref>Molina SL, Stodden DF. [https://brieflands.com/articles/jmcl-143462 Examining Impulse-Variability Theory and the Speed-Accuracy Trade-Off in Children's Kicking Performance]. International Journal of Motor Control and Learning. 2023; 5(3): 36-42</ref>. | |||
* Catching skills can improve the hand-eye coordination skills in children with cerebral palsy (dyskinesia type)<ref>Raharjo S, Wibowo A, Andiana O, Ibrahim, Pelana R, Susiono R, Sujarwo, Antoni R, Amalia EF. Throw and catch the ball games for children with dyskinesia-type cerebral palsy to improve eye-hand coordination movements. Journal of Physical Education and Sport. 2021; 32(4): 2419-2424</ref>. | * Catching skills can improve the hand-eye coordination skills in children with cerebral palsy (dyskinesia type)<ref>Raharjo S, Wibowo A, Andiana O, Ibrahim, Pelana R, Susiono R, Sujarwo, Antoni R, Amalia EF. Throw and catch the ball games for children with dyskinesia-type cerebral palsy to improve eye-hand coordination movements. Journal of Physical Education and Sport. 2021; 32(4): 2419-2424</ref>. | ||
* Children with learning disabilities can benefit from participation in a ball skill intervention<ref name=":6" />. Improvements in ball skills leads to improvement in the problem solving skill of children. | |||
* Consider incorporating games into the therapy<ref name=":7">Saputra H, Hanif AS, Sulaiman I, Ningrum DTM. The Effect of Traditional Games and Drill with Motor Ability on Skills (Running, Jumping, Overhand Throw and Catching) at Elementary School. International Journal of Human Movement and Sports Sciences. 2021; 9(6): 1097-1103</ref><ref name=":8">Johor Z, Candra R, Rasyid W, Asnaldi A, Oktarifaldi, Bakhtiar S. [https://www.atlantis-press.com/proceedings/icpe-19/125942993 Effect of Hand-Eye Coordination on the Capability of Children Object Control]. Advances in Social Science, Education and Humanities Research. 2019; 460</ref>. | |||
* High motor ability students might benefit more from engaging, play-based activities, whereas lower motor ability students might require structured, repetitive practice to develop their skills<ref name=":7" />. | |||
* Hand-eye coordination is an essential skill for performing daily activities and sports actions, such as catching and throwing a ball<ref name=":8" />. Improving this coordination can have a direct impact on children's ball skills<ref name=":8" /><ref>Schott N, Getchell N. Qualitative and Quantitative Assessment of Overarm Throwing in Children With and Without Developmental Coordination Disorder. Journal of Motor Learning and Development. 2021; 9(2): 266-285</ref>. | |||
== Measurements for ball skills == | == Measurements for ball skills == | ||
| Line 232: | Line 232: | ||
* Throw-catch assessment<ref>Terlizzi BM, Hulteen RM, Rudd J, Sacko RS, Sgrò F, Jaakkola T, Abrams TC, Brian A, Nesbitt D, De Meester A, Fraley AL, Stodden DF. A pre-longitudinal screen of performance in an integrated assessment of throwing and catching competence. Physical Education and Sport Pedagogy. 2024; 1-13</ref>: children must throw a tennis ball against a wall. The distance to the wall is three times their height. They must catch the ball as many times as possible in 30 seconds. | * Throw-catch assessment<ref>Terlizzi BM, Hulteen RM, Rudd J, Sacko RS, Sgrò F, Jaakkola T, Abrams TC, Brian A, Nesbitt D, De Meester A, Fraley AL, Stodden DF. A pre-longitudinal screen of performance in an integrated assessment of throwing and catching competence. Physical Education and Sport Pedagogy. 2024; 1-13</ref>: children must throw a tennis ball against a wall. The distance to the wall is three times their height. They must catch the ball as many times as possible in 30 seconds. | ||
* Movement Assessment Battery for Children (MABC)<ref>Henderson S, Sugden D, Barnett AL. Movement Assessment Battery for Children-2, 2nd ed. Pearson Education: London, UK, 2009</ref> | * Movement Assessment Battery for Children (MABC)<ref>Henderson S, Sugden D, Barnett AL. Movement Assessment Battery for Children-2, 2nd ed. Pearson Education: London, UK, 2009</ref> | ||
* Test of Gross Motor Development (TGMD) | * Test of Gross Motor Development (TGMD)<ref>Ulrich DA. Test of gross motor development. Austin, TX, Pro-ed Publishers. 2000</ref>: object control subtest: performance on six ball skills: throwing, catching, striking off a tee, kicking, dribbling, and rolling. | ||
* Peabody Developmental Motor Scales<ref>Folio R, Fewell R. Peabody Developmental Motor Scales and Activity Cards. Chicago, Ill: The Riverside Publising Co. 1983</ref>: the receipt and propulsion category: throw/catching a tennis ball, bouncing games, throwing to a target game, kicking the ball. | |||
* Bruininks-Oseretsky Test of Motor Proficiency second edition (BOT-2)<ref>Bruininks RH, Bruininks BD. Bruininks-Oseretsky Test of Motor Proficiency, 2nd ed. AGS Publishing: Circle Pines, MN, USA, 2005</ref>: subtest upper-limb coordination. | * Bruininks-Oseretsky Test of Motor Proficiency second edition (BOT-2)<ref>Bruininks RH, Bruininks BD. Bruininks-Oseretsky Test of Motor Proficiency, 2nd ed. AGS Publishing: Circle Pines, MN, USA, 2005</ref>: subtest upper-limb coordination. | ||
* Fitness Test Battery (FTB)<ref>Fjørtoft I, Pedersen AV, Sigmundsson H, Vereijken B. [https://academic.oup.com/ptj/article/91/7/1087/2735048 Measuring physical fitness in children who are 5 to 12 years old with a test battery that is functional and easy to administer]. Physical Therapy & Rehabilitation Journal. 2011; 91: 1087–1095</ref>: the tennis ball throw | * Fitness Test Battery (FTB)<ref>Fjørtoft I, Pedersen AV, Sigmundsson H, Vereijken B. [https://academic.oup.com/ptj/article/91/7/1087/2735048 Measuring physical fitness in children who are 5 to 12 years old with a test battery that is functional and easy to administer]. Physical Therapy & Rehabilitation Journal. 2011; 91: 1087–1095</ref>: the tennis ball throw | ||
Revision as of 20:14, 23 June 2024
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Introduction[edit | edit source]
Ball skills involve applying force to an object to propel it. The actions of throwing, kicking, and striking follow similar developmental patterns due to the shared mechanical principles of object projection. Among these, the overhand throw for distance has been the most extensively researched by scientists. Ball skills are important for many games and sports[1]. Movements like throwing and catching are crucial for early childhood[2], and engaging in such games not only enhances gross motor skills[3] but also supports overall growth and development in children[4]. The ability to throw or catch is strongly linked to the development of movement skills used in sports later in life[5][6][7].
Overarm throwing[edit | edit source]
Throwing can be done in various ways. Young children often use the two-hand underhand throw and the one-hand underhand throw. Other types include the sidearm throw and the two-hand overarm throw. The choice of throw, especially in children, is often influenced by task constraints, such as the size of the ball. Throwing is crucial as it is a complex motion that will influence the child's future involvement in sports[8][9].
Characteristics of early overarm throwing:
- Usually restricted to arm action alone.
- Children bring up their hand with their elbow up, and throw by extending the elbow without taking a step.
- Sometimes they wil use trunc flexion, instead of rotation.
Expert overarm throwing movement pattern:
- The weight shifts to the back foot, the torso rotates backward, and the arm performs a circular, downward backswing to prepare for the throw.
- The leg opposite the throwing arm steps forward to extend the distance over which force is applied to the ball and to enable full torso rotation.
- The trunk rotates forward to add force to the throw. For maximal force, the rotation is differentiated, meaning the lower torso moves ahead of the upper torso, creating a movement that resembles the body opening up.
- The trunk bends sideways, away from the side of the throwing arm.
- The upper arm forms a right angle with the torso and moves forward just as (or slightly after) the shoulders rotate to face the front. This means that, when viewed from the side, the upper arm is visible within the outline of the torso.
- The thrower keeps the elbow at a right angle during the forward swing, extending the arm when the shoulders face forward. Extending the arm just before release lengthens the radius of the throwing arc.
- During the forward swing, the forearm lags behind the trunk and upper arm. As the upper trunk rotates forward, the forearm and hand seem stationary or move slightly down or back. The forearm continues to lag until the upper trunk and shoulders fully rotate in the direction of the throw.
- The follow-through disperses the force of the throw over distance. Most of the wrist flexion occurs during the follow-through, after the thrower has released the ball.
- Dissipating force after release maximizes the speed of movement while the ball is in the hand.
| Trunk action | Backswing and forearm action (backswing) | Humerus action (forward swing) | Forearm action (forward swing) | Foot action |
|---|---|---|---|---|
| Step 1:
No trunk action or forward/backward movements. Only the arm is involved in generating force. |
Step 1:
No backswing: The ball in the hand moves directly forward from its original position when first grasped, with no backward motion. |
step 1: Humerus oblique: The upper arm moves forward to release the ball in a plane that intersects the trunk obliquely, either above or below the horizontal line of the shoulders. | step 1:
No forearm lag: The forearm and ball move continuously forward to release throughout the throwing action. |
step 1:
No step: The child throws from their initial foot position without stepping. |
| Step 2:
Upper trunk rotation: The spine and pelvis rotate away from the intended flight path and then simultaneously start rotating forward, functioning as a single unit. |
Step 2:
Elbow and humeral flexion: The ball moves away from the intended flight path to a position behind or beside the head through upward flexion of the humerus and simultaneous elbow flexion. |
Step 2: Humerus aligned but independent: The upper arm moves forward to release the ball in a plane horizontally aligned with the shoulders. | step 2:
Forearm lag: The forearm and ball appear to lag, reaching their farthest back, lowest point, or last stationary position before the shoulders face forward. |
step 2:
Homolateral step: The child steps with the foot on the same side as the throwing hand. |
| Step 3:
Differentiated rotation: The pelvis initiates forward rotation before the upper spine. The child twists away from the intended ball flight path and then starts forward rotation with the pelvis while the upper spine continues to twist away. |
Step 3:
Circular, upward backswing: The ball moves away from the intended flight path to a position behind the head via a circular overhead movement with the elbow extended, an oblique swing back, or a vertical lift from the hip. |
step 3:
Humerus lags: The upper arm moves forward to release the ball in a plane horizontally aligned, but as the shoulders reach a front-facing position, the upper arm remains within the outline of the body. |
step 3:
Delayed forearm lag: The lagging forearm delays reaching its final lag position until the moment the shoulders face forward. |
step 3:
Short contralateral step: The child steps with the foot on the opposite side of the throwing hand. |
| Step 4:
Circular, downward backswing: The ball moves away from the intended flight path to a position behind the head through a circular down-and-back motion, bringing the hand below the waist. |
step 4:
Long contralateral step: The child steps with the opposite foot over a distance greater than half their standing height. |
Kicking[edit | edit source]
For kicking a ball, children must have adequate perceptual abilities and eye-foot coordination to make contact with the ball.
Characteristics of early kicking:
Children just learning to kick a ball will use a single action, rather than a sequence. They will not step forward with the non-kicking leg, the kicking leg only pushes forward. There is no trunk rotation and the arms are at the sides of the body.
Expert kicking pattern:
- The child runs up to the ball. As a natural outcome of the running stride, the trunk rotates backward and the knee of the kicking leg bends just after pushing off from the rear leg. Approaching the ball at a run also contributes momentum to the kick.
- The child uses a sequence of movements with the kicking leg. First, the thigh rotates forward, then the lower leg extends just before contacting the ball to increase the arc radius through which the kicking leg moves. The straightened leg continues forward after contact, dissipating the force of the kick during the follow-through.
- The child swings the kicking leg through its full range of motion at the hip.
- The child incorporates trunk rotation to maximize the range of motion. To balance the full leg swing, the kicker leans back upon contact.
- The child uses the arms in opposition to the legs in response to trunk and leg movements.
Overarm striking[edit | edit source]
Overarm striking is a fundamental motor skill where an individual uses their arm to hit an object, typically with an extended arm moving over the shoulder. It can be carried out with the help of tool, like a racket[10]. This action is common in various sports, such as tennis, volleybal, and baseball.
Characteristics of early overarm striking
A novice striker shows restricted movement in the pelvis and spine, swings with a bent elbow, and moves the arm and racket forward simultaneously. The movement pattern in early overarm striking resembles that of early overarm throwing.
Expert overarm striking patterns:
- The child rotates the pelvis and the spine more than 90°.
- The child keeps its elbow between 90° and 119° at the start of moving forward.
- The child keeps the racket behind its arm during the swing.
| Preparatory phase: trunk action | Ball-contact phase: elbow action | Ball-contact phase: spinal range of motion | Ball-contact phase: pelvic range of motion | Ball-contact phase: racket action |
|---|---|---|---|---|
| Step 1:
No trunk action |
Step 1:
Angle is 20° or less |
Step 1:
Spine rotates less than 45° |
Step 1:
Pelvis rotates less than 45° |
Step 1:
No racket lag |
| Step 2:
Minimal trunk rotation (<180°) |
Step 2:
Angle is 21° to 89° |
Step 2:
Spine rotates between 45° and 89° |
Step 2:
Pelvis rotates between 45° and 89° |
Step 2:
Racket lag |
| Step 3: Total trunk rotation (>180°) | Step 3:
Angle is 90° to 119° |
Step 3:
Spine rotates more than 90° |
Step 3:
Pelvis rotates more than 90° |
Step 3:
Delayed racket lag |
Catching[edit | edit source]
Catching is a skill where a child intercepts and secures an object, typically with their hands or a tool like a glove. This skill is essential in various sports and activities, such as baseball, basketball, and recreational games[11]. It is complex because of many factors like hand-eye coordination, the ability of tracking and anticipating the ball, and the manipulation of fine motor skills[11][12].
Characteristics of early catching
A child learning to catch a ball typically absorbs minimal force. They often hold their hands and arms stiffly and may trap the ball against their chest rather than catching it in their hands. It's common for young children to turn away from the ball or close their eyes as they anticipate its arrival.
Expert catching patterns:
- The child learns to catch the ball with their hands and allows for gradual absorption of the ball's force.
- The child masters the ability to move left, right, forward, or backward to intercept the ball.
- When catching a high ball, the child points the fingers upward; when catching a low ball, the child points the fingers downward.
| Arm action | Hand action | Body action |
|---|---|---|
| Step 1:
Almost no response. Arms are extended forward. The ball is usually trapped against the child's chest. |
Step 1:
Palms up: the palms of the hand of the child are facing up. |
Step 1:
No adjustments. |
| Step 2:
Hugging: the arms of the child are extended sideways to hug the ball. They still trap the ball against their chest. |
Step 2:
Palms in: the palms of the child are facing each other. |
Step 2:
Akward adjustment: the arms and trunk are beginning to move, but the head of the child remains erect. |
| Step 3:
Scooping: the arms of the child are extended forward, but they move under the ball. The ball is still trapped against their chest. |
Step 3:
Palms adjusted: the palms of the child are adjusted to the size of the ball they want to catch. |
Step 3:
Proper adjustment: the feet, trunk, and arms of the child all move to catch the ball. |
| Step 4:
Arms give: the arms extend to meet the ball. The ball is caught in their hands. |
Constraints in catching:
- Child specific constraints:
- Gender[11]: mean percentage of succesfull catches is greater for boys than for girls.
- Stereo vision[11]: this is one of many possible information sources for accurately perceiving objects in depth, and it becomes increasingly important as an object enters one's immediate action space. A lack of stereo vision is closely linked to reduced performance in unimanual catching. Since stereo vision aids in depth perception, it can provide the catcher with crucial temporal and spatial information.
- Age[11][13]: catching performance improves with age.
- Experience[11]: children who have experience in participating in sports are more likely to be more proficient in catching.
- Motivation[14]: if children are enthusiastic about participating, they will achieve their goals easier.
- Learning disorder[13]
- Task constraints:
- Ball location[11]: for children (5-6 years), a ball directed at the torso brings out more advanced developmental patterns. If a ball is tossed too far away from or too close to a child's body, they will be frequently more unsuccesful.
- Ball velocity[11]: ball speed also plays a role.
- Distance[11]: succesful catching seems to be related to distances.
- Environmental constraints:
- Posture[11]: good catchers do not show any improvements in catching while sitting or standing, but children less proficient catch more balls when in a seated position.
- Instruction[11][13]: the instruction given to children on how to catch is important and must be fitting for the child (internal vs. external focus, explicit vs. implicit learning).
- Ball size[11]: larger balls can improve the catching patterns in young children.
- Ball color[11]: children are more succesful at catching balls of their preferred colour compared to balls of other colours.
Gender differences[edit | edit source]
Boys tend to outperform girls on object-control skills[15][6][7]. These differences could be examined from a biological perspective, even though boys and girls generally share similar physical attributes such as body type, strength, and limb lengths before puberty[16]. It is likely that sex differences are influenced by the types of activities children engage in. Research has indicated that the activities boys and girls participate in are heavily shaped by social and environmental factors, including the influence of family, peers, teachers, and the physical environment[17]. Boys are more likely to participate in ball sports (object-control related activities), while girls tend to be more involved in dance and gymnastics (locomotor-related activities)[18].
At the age of 5 years 3 months old, 60% of boys have developed a mature one-handed overarm throwing technique[6]. In contrast, girls did not achieve this milestone until they are 8 years and 6 months old[6].
Ball skills for the pediatric physical therapist[edit | edit source]
These skills do no develop on their own[19]; they need to be taught and developed through structured instruction, enough practice opportunities, and constructive feedback[13][20][15]. When practicing kicking skills with a child the following things are important:
- Emphasizing speed over accuracy in children's motor learning might promote greater development of ballistic skills[21][22].
- Catching skills can improve the hand-eye coordination skills in children with cerebral palsy (dyskinesia type)[23].
- Children with learning disabilities can benefit from participation in a ball skill intervention[13]. Improvements in ball skills leads to improvement in the problem solving skill of children.
- Consider incorporating games into the therapy[24][25].
- High motor ability students might benefit more from engaging, play-based activities, whereas lower motor ability students might require structured, repetitive practice to develop their skills[24].
- Hand-eye coordination is an essential skill for performing daily activities and sports actions, such as catching and throwing a ball[25]. Improving this coordination can have a direct impact on children's ball skills[25][26].
Measurements for ball skills[edit | edit source]
It is difficult to measure catching, due to the many variables influencing the catching performance[11]. Measurements for catching and throwing:
- Throw-catch assessment[27]: children must throw a tennis ball against a wall. The distance to the wall is three times their height. They must catch the ball as many times as possible in 30 seconds.
- Movement Assessment Battery for Children (MABC)[28]
- Test of Gross Motor Development (TGMD)[29]: object control subtest: performance on six ball skills: throwing, catching, striking off a tee, kicking, dribbling, and rolling.
- Peabody Developmental Motor Scales[30]: the receipt and propulsion category: throw/catching a tennis ball, bouncing games, throwing to a target game, kicking the ball.
- Bruininks-Oseretsky Test of Motor Proficiency second edition (BOT-2)[31]: subtest upper-limb coordination.
- Fitness Test Battery (FTB)[32]: the tennis ball throw
- Performance and Fitness test (PERF-FIT)[33]: the ball skills and overhead throw
References[edit | edit source]
- ↑ Stodden DF, Gao Z, Langendorfer SJ, Goodway JD. Dynamic relationships between motor skill competence and health-related fitness in youth. Pediatric Exercise Science. 2014; 26(3): 231-241
- ↑ Pratiwi E, Hernawan H, Fachrezzy F, Anggara N, Lestari H, Gumantan A, Touvan Juni SY, Mappaompo MA, Juhannis J, Sinulingga A. Learning model of basic manipulative movements of throwing and catching. Federación Española de Asociaciones de Docentes de Educación Fisica. 2024; 55: 452-460
- ↑ Sari EP, Izzah ON. The Improvement of Gross Motor Development on Pre-School Through Playing Throw and Catch Ball. Nurse and Holistic Care. 2021; 1(1): 7-13
- ↑ Rosita T. Nurhayati S, Jumiatin D, Rosmiati A, Abdu WJ. Using traditional role-play games by adults to nurture a culture of cooperation among children amidst wide-spread engagement in online games within today's technological society. Journal of Critical Reviews. 2020; 7(7): 183-186
- ↑ Lola A, Tzetzis G, Manou V, Alexandropoulou S. Attentional focus on learning fundamental movement skills in children. Physical Activity Review. 2022; 10(1): 60-67
- ↑ 6.0 6.1 6.2 6.3 Veldman SLC, Palmer KK, Okely AD, Robinson LE. Promoting ball skills in preschool-age girls. Journal of Science and Medicine in Sport. 2017; 20(1): 50-54
- ↑ 7.0 7.1 Robinson LE, Veldman SLC, Palmer KK, Okely AD. A Ball Skills Intervention in Preschoolers. Medicine & Science in Sports & Exercise. 2017; 49(11): 2234-2239
- ↑ Johnson JL, Rudisill ME, Hastie PA, Sassi J. The influence of guided practice on overhand throwing competence in preschool children in a mastery motivational climate. Journal of Motor Learning and Development. 2019; 7(1)
- ↑ Maselli A, Dhawan A, Russo M, Cesqui B, Lacquaniti F, d'Avella A. A whole body characterization of individual strategies, gender differences, and common styles in overarm throwing. Journal of Neurophysiology. 2019; 122(6)
- ↑ Supriadi A, Mesnan, Akhmad I, Dewi R, Suprayitno. The effect of learning manipulative skills using ball thrower learning media on the ability to throw and catch the ball in elementary school students. International Journal of Education in Mathematics, Science, and Technology (IJEMST). 2022; 10(3): 590-603
- ↑ 11.00 11.01 11.02 11.03 11.04 11.05 11.06 11.07 11.08 11.09 11.10 11.11 11.12 11.13 Chang SH, Lim J, Lee J, Han K. An Investigation of Factors on Catching Performance: A Constraints-led Approach. International Journal of Human Movement Science. 2016; 10(2): 99-111
- ↑ Licari MK, Reynolds JE, Tidman S. Visual tracking behaviour of two-handed catching in boys with developmental coordination disorder. Research in Developmental Disabilities. 2018; 83: 280-286
- ↑ 13.0 13.1 13.2 13.3 13.4 Westendorp M, Houwen S, Hartman E, Mombarg R, Smith J, Visscher C. Effect of a ball skill intervention on children's ball skills and cognitive functions. Medicine and Science in Sports and Exercises. 2014; 46: 414-422
- ↑ Ediwitoko R, Hasmyati, Asran. How Do Primary School Students Perform? Fundamental Movement Skills for Throwing Catch Baseball. ETDC: Indonesian Journal of Research and Educational Review. 2022; 1(4): 499-509
- ↑ 15.0 15.1 Bolger LE, Bolger LA, O'Neill C, Coughlan E, O'Brien W, Lacey S, Bardid F. Global Levels of fundamental motor skills in children: A systematic review. Journal of Sports Sciences. 2020; 39(7): 717-753
- ↑ Malina RM, Bouchard C, Bar-Or O. Growth, maturation, and physical activity. Human Kinetics. 2004
- ↑ Hardy LL, King L, Farrell L, Macniven R, Howlett S. Fundamental movement skills among Australian preschool children. Journal of Science and Medicine in Sport / Sports Medicine Australia. 2010; 13(5): 503-508
- ↑ Bardid F, Hyben F, Lenoir M, Seghers J, De Martelaer K, Goodway JD, Deconinck FJA. Assessing fundamental motor skills in Belgian children aged 3-8 years highlights differences to US reference sample. Acta Pediatrica, International Journal of Paediatrics. 2016; 105(6): e281-e290
- ↑ Barnett LM, Stodden D, Cohen KE, Smith JJ, Lubans DR, Lenoir M, Livonen S, Miller AD, Laukkanen A, Dudley D, Lander NJ, Brown H, Morgan PJ. Fundamental movement skills: An important focus. Journal of Teaching in Physical Education: JPTE. 2016; 35(3): 219-225.
- ↑ Gallahue DL, Ozmun JC, Goodway JD. Understanding motor development: infants, children, adolescents, adults (7th ed.). McGraw-Hill. 2012
- ↑ Molina SL, Bott TS, Stodden DF. Applications of the speed-accuracy trade-off and impulse-variability theory for teaching ballistic motor skills. Journal of Motor Behavior. 2019; 51(6): 690-697
- ↑ Molina SL, Stodden DF. Examining Impulse-Variability Theory and the Speed-Accuracy Trade-Off in Children's Kicking Performance. International Journal of Motor Control and Learning. 2023; 5(3): 36-42
- ↑ Raharjo S, Wibowo A, Andiana O, Ibrahim, Pelana R, Susiono R, Sujarwo, Antoni R, Amalia EF. Throw and catch the ball games for children with dyskinesia-type cerebral palsy to improve eye-hand coordination movements. Journal of Physical Education and Sport. 2021; 32(4): 2419-2424
- ↑ 24.0 24.1 Saputra H, Hanif AS, Sulaiman I, Ningrum DTM. The Effect of Traditional Games and Drill with Motor Ability on Skills (Running, Jumping, Overhand Throw and Catching) at Elementary School. International Journal of Human Movement and Sports Sciences. 2021; 9(6): 1097-1103
- ↑ 25.0 25.1 25.2 Johor Z, Candra R, Rasyid W, Asnaldi A, Oktarifaldi, Bakhtiar S. Effect of Hand-Eye Coordination on the Capability of Children Object Control. Advances in Social Science, Education and Humanities Research. 2019; 460
- ↑ Schott N, Getchell N. Qualitative and Quantitative Assessment of Overarm Throwing in Children With and Without Developmental Coordination Disorder. Journal of Motor Learning and Development. 2021; 9(2): 266-285
- ↑ Terlizzi BM, Hulteen RM, Rudd J, Sacko RS, Sgrò F, Jaakkola T, Abrams TC, Brian A, Nesbitt D, De Meester A, Fraley AL, Stodden DF. A pre-longitudinal screen of performance in an integrated assessment of throwing and catching competence. Physical Education and Sport Pedagogy. 2024; 1-13
- ↑ Henderson S, Sugden D, Barnett AL. Movement Assessment Battery for Children-2, 2nd ed. Pearson Education: London, UK, 2009
- ↑ Ulrich DA. Test of gross motor development. Austin, TX, Pro-ed Publishers. 2000
- ↑ Folio R, Fewell R. Peabody Developmental Motor Scales and Activity Cards. Chicago, Ill: The Riverside Publising Co. 1983
- ↑ Bruininks RH, Bruininks BD. Bruininks-Oseretsky Test of Motor Proficiency, 2nd ed. AGS Publishing: Circle Pines, MN, USA, 2005
- ↑ Fjørtoft I, Pedersen AV, Sigmundsson H, Vereijken B. Measuring physical fitness in children who are 5 to 12 years old with a test battery that is functional and easy to administer. Physical Therapy & Rehabilitation Journal. 2011; 91: 1087–1095
- ↑ Smits-Engelsman B. PERF-FIT, Instruction and Standardization Manual. Cape Town, South Africa. 2018
