A gyermekek alapvető mozgáskészségét mérő értékelő eszközök

A gyermekek alapvető mozgáskészségét mérő értékelő eszközök: Comparison

Please note this is a comparison between Version 1 by Ágnes Virág Nagy and Version 3 by Lindsay Dong.

ChildhoodA is the most sensitive period for the development of fundamental movement skillsgyermekkor a legérzékenyebb időszak az alapvető mozgáskészségek (FMS). The assessments also help identify strengths and weaknesses in c fejlődésére. Az értékelések segítenek azonosítani a koordination, balance, agility and other important skilláció, az egyensúly, a mozgékonyság és más fontos képességek erősségeit és gyengeségeit is.

assessment tool
primary school
children

1. InBemutroductionatkozás

MA motor skills are fundamental abilities that enable individuals to perform various physical tasksos képességek olyan alapvető képességek, amelyek lehetővé teszik az egyének különböző fizikai feladatok hatékony végrehajtását [ efficiently1 ^[1]]. BasicAz skills like walking, running and jumping and complex activities likeolyan alapvető készségek, mint a séta, futás és ugrás, valamint az olyan összetett feladatok, mint a sports and fine motor tasks play a crucial role in human development and daily functioning. Developing these skills in childhood is fundamental for competitive sports and lifelong activity, since this contributes to physical, mental and social development as és a finommotoros feladatok, amelyek szerepet játszanak az emberi fejlődésben és a mindennapi működésben. Ezeknek a képességeknek a gyermekkori fejlesztése alapvető fontosságú a versenysportban és az élethosszig tartó tevékenységben, mivel ez az ajándék a testi, szellemi és szociális fejlődéshez is [ 2 , 3 , 4 well, 5 , ^{[2 1 ][3][4][5][6]}. ThEzese benefits also highlight the importance of measuring and continuously monitoring these skills. An accuratek az előnyök is rávilágítanak e készségek mérésének és folyamatos nyomon követésének fontosságára. A pontos motor skill assessment tool serves as an objective measure to evaluate an individual’s physical abilities, and it is essential for identifying strengths and weaknesses. Measuring motor skills in children is a priority for both physical education and youth sports, since it can help teachers and coaches to support the motor skills development that the individual requires.

Ios képességfelmérő eszköz objektív mércéül szolgál az egyén fizikai képességeinek értékeléséhez, és elengedhetetlen az erősségek és gyengeségek azonosításához. A gyermekek motoros képességeinek mérése mind a testnevelés, mind az ifjúsági sport számára kiemelt feladat, mivel ez a legkönnyebb a tanárokat és az edzőkeally, the pillars oft az egyén által igényelt motor skills should be os képességek fejlesztésében.

Ideveáloped before the onset of the rapid growth phase in adolescence, since previous studies have already demonstrated that childhood is the most sensitive period for the development of fundamental movement skillsis esetben a motoros készségek pilléreit még a serdülőkorban a gyors növekedési szakasz kezdete előtt ki kell fejleszteni, mivel a korábbi tanulmányok már bizonyították, hogy a gyermekkor a legérzékenyebb időszak az alapvető mozgáskészségek (FMS) ^[5][7][8]. Sfeverajl researchersődésére [ 5 , 7 refer, to^{[ 2 ]}. FMSs as the pillars of motor skills, since they are a set of foundational physical abilities that serve as building blocks for more complex andzámos kutató a motoros készségek pilléreként hivatkozik az FMS-ekre, mivel ezek olyan alapvető fizikai képességek összessége, amelyek összetettebb és specialized movements. FMSs are essential for developing complex movements that involve the ability to move confidently and effectively in a wide range of physical activities. There are four main categories of fundamental movement skills: locomotor movement skills, object control movement skillsálisabb mozgások építőkövei. Az FMS-ek elengedhetetlenek az összetett mozgások fejlesztéséhez, amelyek magukban foglalják a magabiztos és hatékony mozgás képességét a fizikai tevékenységek széles körében. Az alapvető mozgáskészségeknek négy fő kategóriája van: mozgásszervi mozgáskészség, tárgykontroll mozgáskészség, stability movement skills and fine motor movement skillsási mozgáskészség és finommotoros mozgáskészség [ 1 , 8 ^[1][8]].

2. Ass gyessment tools measuringfundamental movement skills of children rmekek alapvető mozgáskészségét mérő értékelő eszközök

TAsztablel 1 prbesenmuts the characteristics of the assessment tools. High standard deviations are seen for both the quantity of test itemsatja az értékelési eszközök jellemzőit. Nagy szórás figyelhető meg mind a tesztelemek mennyisége (SD = 20.44) and the duration of the test,44), mind a vizsgálat időtartama (SD = 11.30). Three of the tools,30) tekintetében. Az eszközök közül három (MOT 4–6, MMT andés BOT-2) appear to be results-oriented, while theeredményorientáltnak tűnik, míg az M-ABC-2 and és a TGMD are more process-oriented. Only theinkább folyamatorientált. Csak a TGMD has 2-level scaling in the evaluation process, i.e., evaluating correct or incorrect execution. The other process-oriented assessment tool uses a scale with three or more levels to evaluate partially accurate execution. During testing, the age-appropriaterendelkezik 2 szintű skálázással az értékelési folyamatban, azaz a helyes vagy helytelen végrehajtás kiértékelésében. A másik folyamatorientált értékelési eszköz egy három vagy több szintű skálát használ a részben pontos végrehajtás értékelésére. A tesztelés során az eredményközpontú értékelési eszközök életkornak megfelelő standardized scores from the result-focused assessment tools are used from raw performance scores. The instrument requirements of tools also differ widely, but all of them need some kind of sports equipment to produce the test. There are cultureált pontszámait használjuk a nyers teljesítménypontszámokból. A szerszámok műszerigénye is nagy eltéréseket mutat, de mindegyikhez szükség van valamilyen sporteszközre a teszt elkészítéséhez. Kultúra-specific differences. For example, the TGMD can also be performed with tennis and baseballkus különbségek vannak. Például,17 ^[9]].

Ta1. táble 1. Characteristics and theoretical frameworks of movement skill assessment tools

ázat A mozgáskészség-felmérő eszközök jellemzői és elméleti keretei.

Nameév	Aim Cél	AgeKor	TimeIdő	ITétemslek	REresults Orienteddményorientált	PrFocess Orientedlyamat orientált	EvaÉrtékeluationés	DeviceEszközök	StErengthsősségek	LimiKorlátationozások	CiIdézetationsek
Motoros skillkészségek tesztje 4-6 éves test for 4–6-year-old children (MOT 4–6) gyerekeknek (MOT 4-6)	EarlyAz detection of FMS delay or deficiFMS késés vagy hiány korai felismerésency	4-6 yearsév	20-25 minperc	18 itétemsl	YIgesn	YIgesn	0–2 point/Item– raw score pont/Tétel – nyers pontszám	ASportfelszerelso requireést és speciális felszerelés sports equipment and special equipmentt is igényel	COktan be used in atási környezetben használható. Minőségértékelés is lehetséges. A mérés a tan educational environment. A quality assessment is also possible. The measurement can also be done in the classroom.teremben is elvégezhető.	It doNes not include am tartalmaz static balance task. It requires severalkus egyensúlyi feladatot. Több special tools. It contains several similar tasks, thereby increasing the measurement time.ális eszközt igényel. Több hasonló feladatot is tartalmaz, ezzel növelve a mérési időt.	(Zimmer és Volkamer, 1987 Zimmer, 2006;) [ ^[10]24^[11] , 25 ]
Movzgásértékement Assessment Battery for Children (M-ABC-2)lő akkumulátor gyerekeknek (M-ABC-2)	DetectKésés vagy hion of delay or deficiencyányosság észlelése	3-16 yearsév/3 age bandkorosztály	20-30 minperc	8 itelems	Noem	YIgesn	0–5 point/itemtétel	ASportfelszerelso requireést és speciális felszerelés sports equipment and special equipmentt is igényel	Allz összes test areas are includedztterületet tartalmazza. Kultúrák közötti érvényesség. Kevés feladat, kevés értékelési idő. Cross-cultural validity. Few tasks, little assessment time.	ItTöbb requires severaspeciális eszközt igényel special tools..	(Henderson és Sugden, 1992; Henderson, Sugden és Barnett 2019) ^[12]^[13][ 15 , 26 ]
Maastrichtse Motoriek Test (MMT) motoros teszt (MMT)	TA mo evaluate thzgás mennyiségi és minőségi összetevőinek egyidejű értékelése quantitative and qualitative components of movement at the same time..	5-6 yearsév, kindergarden school tranóvodai iskola átállásition	30 minperc	70 itétemsl	YIgesn	YIgesn	0–2 point/itemtétel	RSportfelszequires sports equipmentrelés szükséges	It also includes result- and process-oriented assessments evaluation. It places great emphasis on the evaluation of speed coordination. It also measures sense of rhythm.	There are too many tasks. Time consuming.	(Vles et al., 2004) ^[143]
Bruininks–Oseretsky Test of Motor Proficiency (BOT-2)	Fine and gross motor skill levels and suitable for identifying movement coordination disorders.	4–21 years	45–60 min	53 items	Yes	No	Ranging from a 2-point scale to a 13-point scale	Also requires sports equipment and special equipment	You can choose composites or necessary subtests. All test areas are included. The measurement of fine motor skills is emphasized.	There are too many tasks that are tiring for young children. Time consuming. It requires several special tools.	(Bruininks, 1978; Bruininks and Bruininks, 2012) ^[154]^[165]
Bruininks–Oseretsky Test of Motor Proficiency–Short form	Screening test	4–21 years	15–20 min	14 items	Yes	No	Ranging from a 2-point scale to a 13-point scale	Also requires sports equipment and special equipment	All test areas are included.	It requires several special tools.	(Bruininks, 1978; Bruininks and Bruininks, 2005) ^[154]^[165]
Körperkoordinationtest für Kinder (KTK)	Screening dynamic balance skills with typical or brain damage, behavioral problems or learning difficulties children.	4–14 years	20 min	4 items	Yes	No	Raw scores/standardized scores	Requires special sports equipment	It differentiates well from light to heavy.	The test only measures the ability of dynamic balance. It requires several special tools.	(Kiphard and Shilling, 1974; Kiphard and Schilling, 2007) ^[176]^[187]
Test of Gross Motor Development-2 (TGMD-2)	Backlog in gross motor performance	3–10 years	15–20 min	12 items	No	Yes	0–1 point/item	Requires sports equipment	Excellent for evaluating movement quality.	No stability subtest. Culturally dependent.	(Ulrich, 1985; Ulrich, 2000) ^[98][199]
Test of Gross Motor Development-3 (TGMD-3)	Backlog in gross motor performance	3–10 years	17–22 min	13 items	No	Yes	0–1 point/item	Requires sports equipment	Excellent for evaluating movement quality.	No stability subtest. Culturally dependent.	(Webster and Ulrich, 2017) ^[2010]
Test of Gross Motor Development-3 Short form (TGMD-3 Shord form)	Backlog in gross motor performance	3–10 years	10–13 min	7 items	No	Yes	0–1 point/item	Requires sports equipment	Excellent for evaluating movement quality.	No stability subtest. Culturally dependent.	(Duncan et al., 2022) ^[2111]
Motorische Basiskompetenzen (MOBAK-1)	Screen the level of student’s motor competence	6–7 years	10–12 min	8 items	Yes	No	0–2 point/item	Requires sports equipment	The subtests are age-specifically adapted to the curriculum requirements of physical education. It can be used well in PE lessons. Uses appropriate equipment in PE.	Time-consuming: 5 children can be assessed during a 45-min PE lesson.	(Herrmann et al., 2019) ^[2212]
Motorische Basiskompetenzen (MOBAK-3)	Screen the level of student’s motor competence	8–9 years	10–12 min	8 items	Yes	No	0–2 point/item	Requires sports equipment	The subtests are age-specifically adapted to the curriculum requirements of physical education. It can be used well in PE. lessons. Uses appropriate equipment in PE.	Time-consuming: 5 children can be assessed during a 45-min PE lesson.	(Herrmann and Seelig, 2017) ^[2313]

The content components of the FMS assessment tools are shown in Table 2. Locomotion movement analysis was measured with running tasks in three assessment tools (BOT-2; TGMD-2; TGMD-3). Additionally, most assessment tools involve skipping to measure locomotion movement skills.

Table 2.

Content analysis of FMS assessment tools.

Subtests/Tasks	MOT 4–6	M-ABC-2 (3–6 Age)	M-ABC-2 (7–10 Age)	MMT	BOT-2	BOT-2 Short Form	KTK	TGMD-2	TGMD-3	TGMD-3 Short Form	MOBAK-1 (6–7 Age)	MOBAK-3 (8–9 Age)
Locomotion Motor Movement Skills
Run					Shuttle run			X	X
Hop with 1 leg	X		Forward	Left, Right, Forward left leg, Forward right leg	X	X		X	X	X
Hop with 2 legs	Jumping Jack	Forward		X	Jumping Jack, Same side synchronized, Opposite side synchronized	Same side synchronized
Hop with 1 and 2 legs											Forward
Gallop								X	X	X
Slide								X	X		X
Run and slide												X
Leap/Skip								X	X
High jump	X						X
Long jump				X
Long jump from place					X			X	X	X
Side hop					One-legged, Two-legged
Rolling around longitudinal axis	X
Rolling forward											X	X
Knee push ups					X	X
Sit up					X	X
Wall sit					X
V-up					X
Hiding through hoops	X
Complex exercise: Stand up–sit down	X
Object Control Movement Skills
Throw overhand	Target				Target			X	X	X	Target	Target
Throw underhand		Target	Target						X
Catch (two-handed)	Stick, Ring	Beanbag	X	X				X	X	X	X
Dribble stationary				X	One hand, Alternate hand	Alternate hand		X	X	X
Dribble forward											X	Slalom
Dribble with leg											X	Slalom
Kick				Right leg, Left leg				X	X
Strike								X	One hand, Two hands	Two hands
Underhand roll								X
Rope skipping												X
Complex exercise: Throw and catch					One hand, Two hand							Two hands
Complex exercise: Drop and catch					One hand, Two hand	Both hands
Stability Movement Skills
Static balance skills
One-leg balance		X	X	Right leg, Left leg	Eyes open, Eyes closed	X
Stork stand				Right leg, Left leg
One-leg balance on a beam					Eyes open, Eyes closed, Heel-to-toe
Two-leg balance on the line					Eyes open, Eyes closed
Two-leg balance				Eyes closed, Eyes closed arms forward
Standing on toes				X
Dynamic balance skills
Walk on heels				X
Walk on the toes				X
Walking forward on the line	X	Heels raised	Heel-to-toe	Tightrope walker	X, Heel-to-toe	X					Beam	Beam, Barrier
Walking backwards on the line	X						Beam
Jumping sideways over a slat	Rope				Beam		X
Moving sideways							X
Twisting jump in the hoop	X
Complex exercise: Jump and one-leg balance	X
Fine Motor Movement skills
Without equipment
Hand tapping				Left, Right
Feet tapping				Left, Right
Tapping feet and fingers					Same side synchronized; Opposite side synchronized	Same side synchronized
Pivot thumbs and index fingers					X
Touching nose with index fingers—eyes closed					X
Pronation–supination				Dominant hand, Non-dominant hand, Both hands
Opposition of fingers and thumb				Dominant hand, Non-dominant hand, Both hands
With equipment
Put tennis balls in boxes	X
Drawing points	X				X
Drawing lines		X	X		2 items	X
Copy					8 items	2 items
Match packing	X
Grip with toes	X
Posting coins		X			X	X
Threading beads		X
Folding paper					X	X
Placing pegs			X
Threading lace			X
Placing pegs in pegboard					X
Soring cards					X
Stringing blocks					X
Filling in a circle					X
Filing in a star					X
Connecting dots					X
Cutting out a circle					X
Pen				Dominant hand, Non-dominant hand

Measuring object control movement skills includes different types of throwing, dribbling, kicks, strikes, and other complex exercises (i.e., throw and catch). As seen in Table 2, most of the assessment tools measure a skill with one or more tasks; however, the KTK did not include any tests to measure object control movement skills. Furthermore, it is mostly dominated by upper-limb tests, but the MOBAK, TGMD and MMT examine lower leg coordination.

Static and dynamic balance can be found in the analyzed tools. Almost half of the tests include one-leg and/or two-leg static balance tasks executed with eyes open or closed. Except for the TGMD, all of the assessment tools include dynamic balance tasks, such as walking forward and backwards, and walking heel-to-toe on a walking line or balance beam. Only the MMT and BOT-2 assess fine motor skills without equipment (Table 2). The test includes mainly tasks involving fingers and hands.

In investigating locomotor movement skills measurement, scholars found that the BOT-2 running test is excellent for testing running ability ^[5] since they use “shuttle run” tests for running agility ^[16]. For detecting deficiencies in technical execution, the TGMD-2 or TGMD-3 are recommended to use ^[9]. Both tools help to evaluate running techniques with a unitary criteria system. Those coaches or PE teachers who want to investigate the effectiveness of running with the “moving variably” test of the MOBAK-3 will find it useful, in which the running and lateral running should be alternated for effective performance ^[2414]. Almost all of the assessment tools include hop tests. Depending on the needs, one can choose between one-leg, two-legs, on-the-spot, and forward hopping. The MMT test is recommended ^[143] for testing the coordination of two body halves like the hands and feet. Assessing crossed movements during the hop, the BOT-2 assessment tool would be favorable, including suitable tasks ^[165]. The MOT 4–6 and KTK are recommended for the high jump, the MMT for the long jump, and the BOT-2 and TGMD for the long jump from a stationary position. The MOBAK is applicable for assessing forward rolls, and the MOT 4–6 test is important for considering the measurement of rolling around the longitudinal axis ^[143].

The throws had a prominent place for object control movement skills. The tasks mainly assess the effectiveness of a target throw, such as a one-handed overarm, or a one-handed underarm throw. The TGMD has a good tool that assesses the quality of the execution of the throw. The two-handed catching skill appears in a variety of different tools. The children were tested with balls, hoops, and bean bags in the different assessment tools. Some tools offer complex tests such as “throw and catch” and “release and catch”; these can be found in the BOT-2 and MOBAK-3. The importance of object control movement skills has been shown in ball games and other sport techniques such as tennis and badminton ^{[2515][2616][2717]}.

SA stability movement skills are tested with static and dynamic balance tests. Static balance is assessed in only four assessment tools. One-leg balancing, such as theási mozgáskészségeket statikus és dinamikus egyensúlyteszteken tesztelték. A statikus egyensúlyt csak négy értékelési eszközben értékelik. Az egyláb kiegyensúlyozás, például a flamingo test can be tested on the floor, on the line or on the beam, with eyó teszt, elvégezhető a padlón, egy vonalon vagy egy gerendán, nyitott és csukott szemmel.

Összess open and closed.

Ovégében az elemzésből kideraüll, the analysis revealed that to assess locomotor movement skills, the t, hogy a mozgásszervi mozgáskészség felmérésére a BOT-2 has an excellent test for running ability, but for detectingkiváló futóképesség-teszttel rendelkezik, de a technical difficulties, thekai nehézségek kimutatására a TGMD is recommended. To test hopping, the MMT has the best tests. Object control movement skills are measured with throws, dribbles and catches. Most of the tools assessed these skills, but it turned out that the TGMD has the most tests for it. Stjavasolt. Az ugrás teszteléséhez az MMT rendelkezik a legjobb tesztekkel. A tárgyvezérlési mozgáskészséget dobásokkal, csöpögéssel és elkapással mérik. A legtöbb eszköz ezeket a készségeket értékelte, de kiderült, hogy a TGMD-nek van erre a legtöbb tesztje. A stability movement skills are tested with static and dynamic balance tests. When dynamic balance is more used, theási mozgáskészségeket statikus és dinamikus egyensúlytesztekkel tesztelik. Ha a dinamikus egyensúlyt jobban használják, a MOT 4–6, KTK anda KTK és a BOT-2 have the most tools available. However, the MMT is an excellent test forrendelkezik a legtöbb rendelkezésre álló eszközzel. Az MMT azonban kiváló teszt a static balance. Fine motor movement skills are easy to assess with the MMT andkus egyensúlyra. A finommotorikus készségeket könnyű felmérni az MMT-vel és a MOT 4–6, since they have low equipment requirements. The-tal, mivel alacsony felszerelésigényűek. A BOT-2 is the best tool for measuring; however, it has high equipment requirementsa legjobb eszköz a méréshez; azonban magas felszerelési követelményekkel rendelkezik.

References

Logan, S.W.; Ross, S.M.; Chee, K.; Stodden, D.F.; Robinson, L.E. Fundamental Motor Skills: A Systematic Review of Terminology. J. Sports Sci. 2018, 36, 781–796.Logan, S.W.; Ross, S.M.; Chee, K.; Stodden, D.F.; Robinson, L.E. Fundamental Motor Skills: A Systematic Review of Terminology. J. Sports Sci. 2018, 36, 781–796.
Berki, T.; Pikó, B.F.; Page, R.M. Hungarian Adaptation of the Sport Commitment Questionnaire-2 and Test of an Expanded Model with Psychological Variables. Phys. Cult. Sport Stud. Res. 2020, 86, 15–26.Berki, T.; Pikó, B.F.; Page, R.M. Hungarian Adaptation of the Sport Commitment Questionnaire-2 and Test of an Expanded Model with Psychological Variables. Phys. Cult. Sport Stud. Res. 2020, 86, 15–26.
Haga, M. The Relationship between Physical Fitness and Motor Competence in Children. Child Care Health Dev. 2008, 34, 329–334.Haga, M. The Relationship between Physical Fitness and Motor Competence in Children. Child Care Health Dev. 2008, 34, 329–334.
Piek, J.P.; Baynam, G.B.; Barrett, N.C. The Relationship between Fine and Gross Motor Ability, Self-Perceptions and Self-Worth in Children and Adolescents. Hum. Mov. Sci. 2006, 25, 65–75.Piek, J.P.; Baynam, G.B.; Barrett, N.C. The Relationship between Fine and Gross Motor Ability, Self-Perceptions and Self-Worth in Children and Adolescents. Hum. Mov. Sci. 2006, 25, 65–75.
Géczi, G.; Baji, I. Necessity of Long-Term Athlete Development in Hungarian Sport. Testnev. Sport Tud. 2016, 1, 27–37.Géczi, G.; Baji, I. Necessity of Long-Term Athlete Development in Hungarian Sport. Testnev. Sport Tud. 2016, 1, 27–37.
Molnár, A.; Boros-Balint, I.; Deak, G.F.; Andrei, V.L.; Ardelean, V.P.; Simonek, J.; Halmová, N.; Dobay, B.; Nagy, Á.V.; Vári, B.; et al. Does the Gross Motor Development of Romanian and Hungarian 6–7-Year-Old Children Depend on the Degree of Obesity? (First Phase of a Longitudinal Study). In Proceedings of ICU 2019; EdLearning: Bologna, Italy, 2020; pp. 211–216.Molnár, A.; Boros-Balint, I.; Deak, G.F.; Andrei, V.L.; Ardelean, V.P.; Simonek, J.; Halmová, N.; Dobay, B.; Nagy, Á.V.; Vári, B.; et al. Does the Gross Motor Development of Romanian and Hungarian 6–7-Year-Old Children Depend on the Degree of Obesity? (First Phase of a Longitudinal Study). In Proceedings of ICU 2019; EdLearning: Bologna, Italy, 2020; pp. 211–216.
Berk, L.E. Development through the Lifespan, 7th ed.; Pearson Education: Hoboken, NJ, USA, 2018.Berk, L.E. Development through the Lifespan, 7th ed.; Pearson Education: Hoboken, NJ, USA, 2018.
Clark, J.E.; Metcalfe, J.S. The Mountain of Motor Development: A Metaphor. Mot. Dev. Res. Rev. 2002, 163–190.Clark, J.E.; Metcalfe, J.S. The Mountain of Motor Development: A Metaphor. Mot. Dev. Res. Rev. 2002, 163–190.
Ulrich, D.A. Test of Gross Motor Development, Examiner’s Manual, 2nd ed.; Pro-ED.: Austin, TX, USA, 2000.Ulrich, D.A. Test of Gross Motor Development, Examiner’s Manual, 2nd ed.; Pro-ED.: Austin, TX, USA, 2000.
Zimmer, R. Diagnostik Der Bewegungsentwicklung von Kindern: Beobachten–Einschätzen–Dokumentieren. In Proceedings of the 2nd International Conference Learning Processes in Early Childhood and Assessment Issues, Bolzano, Italy, 22–24 June 2006.Zimmer, R. Diagnostik Der Bewegungsentwicklung von Kindern: Beobachten–Einschätzen–Dokumentieren. In Proceedings of the 2nd International Conference Learning Processes in Early Childhood and Assessment Issues, Bolzano, Italy, 22–24 June 2006.
Zimmer, R.; Volkamer, M. Motoriktest Für Vier-Bis Sechsjährige Kinder; Beltz Test: Weinheim, Germany, 1987.Zimmer, R.; Volkamer, M. Motoriktest Für Vier-Bis Sechsjährige Kinder; Beltz Test: Weinheim, Germany, 1987.
Henderson, S.E.; Sugden, D.; Barnett, A.L. Movement Assessment Battery for Children-2; American Psychological Association: Washington, DC, USA, 2019.Henderson, S.E.; Sugden, D.; Barnett, A.L. Movement Assessment Battery for Children-2; American Psychological Association: Washington, DC, USA, 2019.
Henderson, S.E.; Sugden, D.A. Movement Assessment Battery for Children; Psychological Corp.: Sidcup, UK, 1992.Henderson, S.E.; Sugden, D.A. Movement Assessment Battery for Children; Psychological Corp.: Sidcup, UK, 1992.
Vles, J.S.H.; Kroes, M.; Feron, F.J.M. MMT: Maastrichtse Motoriek Test; Pits BV: Leiden, The Netherlands, 2004.Vles, J.S.H.; Kroes, M.; Feron, F.J.M. MMT: Maastrichtse Motoriek Test; Pits BV: Leiden, The Netherlands, 2004.
Bruininks, R.H. Bruininks Oseretsky Test of Motor Proficiency; American Guidance Service: St. Paul, MI, USA, 1978.Bruininks, R.H. Bruininks Oseretsky Test of Motor Proficiency; American Guidance Service: St. Paul, MI, USA, 1978.
Bruininks, R.H.; Bruininks, B.D. Bruininks-Oseretsky Test of Motor Proficiency, 2nd ed.; Pearson: London, UK, 2012.Bruininks, R.H.; Bruininks, B.D. Bruininks-Oseretsky Test of Motor Proficiency, 2nd ed.; Pearson: London, UK, 2012.
Kiphard, v.E.J.; Schilling, F. Korperkoordinationstest Für Kinder 2; Pro-ED.: Weinheim, Germany, 2007.Kiphard, v.E.J.; Schilling, F. Korperkoordinationstest Für Kinder 2; Pro-ED.: Weinheim, Germany, 2007.
Kiphard, v.E.J.; Schilling, F. Körperkoordinationtest Für Kinder; Beltz Test: Weinheim, Germany, 1974.Kiphard, v.E.J.; Schilling, F. Körperkoordinationtest Für Kinder; Beltz Test: Weinheim, Germany, 1974.
Ulrich, D.A. Test of Gross Motor Development; Pro-ED.: Austin, TX, USA, 1985.Ulrich, D.A. Test of Gross Motor Development; Pro-ED.: Austin, TX, USA, 1985.
Webster, E.K.; Ulrich, D.A. Evaluation of the Psychometric Properties of the Test of Gross Motor Development—Third Edition. J. Mot. Learn. Dev. 2017, 5, 45–58. Webster, E.K.; Ulrich, D.A. Evaluation of the Psychometric Properties of the Test of Gross Motor Development—Third Edition. J. Mot. Learn. Dev. 2017, 5, 45–58.
Duncan, M.J.; Martins, C.; Ribeiro Bandeira, P.F.; Issartel, J.; Peers, C.; Belton, S.; O’Connor, N.E.; Behan, S. TGMD-3 Short Version: Evidence of Validity and Associations with Sex in Irish Children. J. Sports Sci. 2022, 40, 138–145.Duncan, M.J.; Martins, C.; Ribeiro Bandeira, P.F.; Issartel, J.; Peers, C.; Belton, S.; O’Connor, N.E.; Behan, S. TGMD-3 Short Version: Evidence of Validity and Associations with Sex in Irish Children. J. Sports Sci. 2022, 40, 138–145.
Herrmann, C.; Heim, C.; Seelig, H. Construct and Correlates of Basic Motor Competencies in Primary School-Aged Children. J. Sport Health Sci. 2019, 8, 63–70.Herrmann, C.; Heim, C.; Seelig, H. Construct and Correlates of Basic Motor Competencies in Primary School-Aged Children. J. Sport Health Sci. 2019, 8, 63–70.
Herrmann, C.; Seelig, H. Structure and Profiles of Basic Motor Competencies in the Third Grade—Validation of the Test Instrument MOBAK-3. Percept. Mot. Skills 2017, 124, 5–20.Herrmann, C.; Seelig, H. Structure and Profiles of Basic Motor Competencies in the Third Grade—Validation of the Test Instrument MOBAK-3. Percept. Mot. Skills 2017, 124, 5–20.
Herrmann, C.; Seelig, H. MOBAK-1 Basic Motor Competencies in Fi Rst Grade; Department of Sport, Exercise and Health (DSBG) of the University of Basel: Basel, Switzerland, 2015.Herrmann, C.; Seelig, H. MOBAK-1 Basic Motor Competencies in Fi Rst Grade; Department of Sport, Exercise and Health (DSBG) of the University of Basel: Basel, Switzerland, 2015.
Thomas, J.R.; French, K.E. References for Motor Tasks--Gender Differences across Age in Motor Performance: A Meta-Analysis. Percept. Mot. Skills 1987, 64, 503–506.Thomas, J.R.; French, K.E. References for Motor Tasks--Gender Differences across Age in Motor Performance: A Meta-Analysis. Percept. Mot. Skills 1987, 64, 503–506.
Hands, B.P.; Larkin, D. Gender Bias in Measurement of Movement. ACHPER Healthy Lifestyles J. 1997, 44, 12–16.
Wright, J. Fundamental Motor Skills Testing as Problematic Practice: A Feminist Analysis. ACHPER Healthy Lifestyles J. 1997, 18–20.