Is the Agility Test-Derived Change-of-Direction Deficit a Valid Indicator of Time Loss During Directional Change?

Hironaga Ito , Kuniaki Hirayama , Yuto Naito , Takao Akama

Journal of Science in Sport and Exercise ›› : 1 -9.

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Journal of Science in Sport and Exercise ›› :1 -9. DOI: 10.1007/s42978-025-00347-7
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Is the Agility Test-Derived Change-of-Direction Deficit a Valid Indicator of Time Loss During Directional Change?

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Abstract

Purpose

The change of direction (COD) deficit isolates time loss from directional changes, but the validity of deriving it from an agility test is unknown. This study examined the validity of the COD deficit calculated using an agility test in young male soccer players.

Methods

Data from 47 valid participants (16.8 ± 0.6 years; 172.8 ± 6.3 cm; 61.0 ± 6.5 kg) were analyzed. In addition to linear sprint time, the total and sectional times of the Reactive Shuttle Test (RST), an agility test, and the proagility test (PAT), a COD test, were measured. The RST-COD and PAT-COD deficits were calculated by subtracting the corresponding linear sprint times from the RST and PAT times.

Results

The RST-COD deficit was significantly correlated with the PAT-COD deficit (Spearman’s rank correlation coefficient, rs = 0.717); however, it did not meet the predetermined criterion for validity (rs ≥ 0.750). The regression intercept (0.2131) was significantly greater than zero. The correlation of movement velocity in Section 1 (rs = 0.532) was lower than that in Section 2 (rs = 0.739) and 3 (rs = 0.647).

Conclusion

These findings suggest that the COD deficit derived from the agility test may not be a valid indicator, potentially owing to individual variability in movement velocity immediately after the start of the test.

Keywords

Agility / Change-of-Direction / COD Deficit / Soccer

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Hironaga Ito, Kuniaki Hirayama, Yuto Naito, Takao Akama. Is the Agility Test-Derived Change-of-Direction Deficit a Valid Indicator of Time Loss During Directional Change?. Journal of Science in Sport and Exercise 1-9 DOI:10.1007/s42978-025-00347-7

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Cohen J. Statistical power analysis for the behavioral sciences, 20132Hillsdale, NJ, Lawrence Erlbaum

[2]

Dos’Santos T, Thomas C, Comfort P, Jones PA. The effect of angle and velocity on change of direction biomechanics: an angle-velocity trade-off. Sport Med, 2018, 48(10): 2235-2253

[3]

Evans JD. Straightforward statistics for the behavioral sciences. Portland. Or: Brooks/Cole Pub Co; 1995.
[4]

Fiorilli G, Iuliano E, Mitrotasios M, Pistone EM, Aquino G, Calcagno G, di Cagno A. Are change of direction speed and reactive agility useful for determining the optimal field position for young soccer players?. J Sports Sci Med, 2017, 16(2): 247-253

[5]

Fiorilli G, Mitrotasios M, Iuliano E, Pistone EM, Aquino G, Calcagno G, di Cagno A. Agility and change of direction in soccer: Differences according to the player ages. J Sports Med Phys Fitness, 2016, 57(12): 1597-1604

[6]

Freitas TT, Alcaraz PE, Bishop C, et al.. Change of direction deficit in national team rugby union players: Is there an influence of playing position?. Sports, 2018, 7(1): 2

[7]

Glaister M, Hauck H, Abraham CS, Merry KL, Beaver D, Woods B, McInnes G. Familiarization, reliability, and comparability of a 40-m maximal shuttle run test. J Sports Sci Med, 2009, 8(177-82
[8]

Hootman JM, Driban JB, Sitler MR, Harris KP, Cattano NM. Reliability and validity of three quality rating instruments for systematic reviews of observational studies. Res Synth Methods, 2011, 2(2): 110-118

[9]

Ito H, Hirayama K, Naito Y, Akama T. Does reactive shuttle test differentiate performance levels in youth soccer players?. J Phys Educ Sport, 2025, 2023: 365

[10]

Jayakumar GDS, Sulthan A. Exact distribution of Cook’s distance and identification of influential observations. Hacettepe J Math Stat, 2015, 44(1): 165-178
[11]

Kameda M, Mizutani M, Sugiyama T, Kiba K, Maeda A. Influence of the side step under unpredictable conditions on lower limb and trunk kinematics of lateral cutting maneuvers in basketball players. Jpn J Phys Educ Health Sport Sci, 2019, 64: 705-717

[12]

Kaneko K, Hirano T, Yamagishi M, Kashiwagi Y, Hakamada N, Tago T, Funato K. Factors affecting the 180-degree change-of-direction speed in youth male soccer players. Hum Perform Meas, 2019, 16: 1-10
[13]

Lockie RG, Jeffriess MD, McGann TS, Callaghan SJ, Schultz AB. Planned and reactive agility performance in semiprofessional and amateur basketball players. Int J Sports Physiol Perform, 2014, 9(5766-771

[14]

Morgan OJ, Drust B, Ade JD, Robinson MA. Change of direction frequency off the ball: New perspectives in elite youth soccer. Sci Med Footb, 2022, 6(4): 473-482

[15]

Mornieux G, Gehring D, Fürst P, Gollhofer A. Anticipatory postural adjustments during cutting manoeuvres in football and their consequences for knee injury risk. J Sport Sci, 2014, 32(13): 1255-1262

[16]

Nimphius S, Geib G, Spiteri T, Carlisle D. Change of direction deficit measurement in Division I American football players. J Aust Strength Cond, 2013, 21(S2): 115-117
[17]

Nóbrega A, Sarmento H, Vaz V, Gouveia V, Barrera J, Martins A, Santos T, Duarte JP. Reliability of the coimbra reactive agility soccer test (CRAST). J Funct Morphol Kinesiol, 2023, 8(1): 11

[18]

Pojskic H, Åslin E, Krolo A, Jukic I, Uljevic O, Spasic M, Sekulic D. Importance of reactive agility and change of direction speed in differentiating performance levels in junior soccer players: Reliability and validity of newly developed soccer-specific tests. Front Physiol, 2018, 9: 506

[19]

Sheppard JM, Young WB, Doyle TLA, Sheppard TA, Newton RU. An evaluation of a new test of reactive agility and its relationship to sprint speed and change of direction speed. J Sci Med Sport, 2006, 9(4342-349

[20]

Shintani T, Hashimoto M, Tagashira S, Fukumoto T, Takashima A, Kinoshita K, Otsuki S. Relationship between trunk muscle function and athletic performance in high school male soccer players. JPN J Clin Sport Med, 2019, 27: 20-26
[21]

Skujytė A, Lukonaitienė I, Stanislovaitienė J, Šilinskas V, Bradauskienė K, Mamkus G, Kamandulis S. Reliability and validity of sprint performance using the Alex7 motorized device. Front Sports Act Living, 2024, 6: 1412861

[22]

Spiteri Tania, et al.. Contribution of strength characteristics to change of direction and agility performance in female basketball athletes.. J Strength Cond Res., 2014, 28(92415-2423

[23]

Stojanović E, Aksović N, Stojiljković N, Stanković R, Scanlan AT, Milanović Z. Reliability, usefulness, and factorial validity of change-of-direction speed tests in adolescent basketball players. J Strength Cond Res, 2019, 33(113162-3173

[24]

Young WB, Dawson B, Henry GJ. Agility and change-of-direction speed are independent skills: Implications for training for agility in invasion sports. Int J Sports Sci Coach, 2015, 10: 159-169

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