Studies |
Isokinetic dynamometer assessment |
POW Jumps in 15s (W) |
POW Jumps in 60s (W) |
SJ HGT (cm) |
CMJ HGT (cm) |
DJ HGT (cm) |
SJ POW (W) |
CMJ POW (W) |
BJ HGT (cm) |
AJ HGT (cm) |
Hop Test Right Leg (cm) |
Unilateral Jump HGT (cm) |
Bilateral Jump HGT (cm) |
4 Consecutive Unilateral Jump HGT (cm) |
ΔFQ |
Bosco et al.99. Bosco C, Mognoni P, Luhtanen P. Relationship between isokinetic performance and ballistic movement. Eur. J. Appl. Physiol. Occup. Physiol. 1983;51(3):357-364.
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PT 180°.s-1 (N.m.kg-1) |
(r=0.70)PC |
(r=0.68)PC |
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Bosco et al.99. Bosco C, Mognoni P, Luhtanen P. Relationship between isokinetic performance and ballistic movement. Eur. J. Appl. Physiol. Occup. Physiol. 1983;51(3):357-364.
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PT 240°.s-1 (N.m.kg-1) |
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(r=0.71)PC
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(r=0.74)PC
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(r=0.60)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT EXT 60°.s-1 (N.m) |
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(r=0.80)PC
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(r=0.82)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT FLE 60°.s-1 (N.m) |
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(r=0.74)PC
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(r=0.71)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW EXT 60°.s-1 (J) |
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(r=0.78)PC
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(r=0.77)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW FLE 60°.s-1 (J) |
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(r=0.67)PC
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(r=0.67)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT EXT 120°.s-1 (N.m) |
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(r=0.83)PC
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(r=0.84)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT FLE 120°.s-1 (N.m) |
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(r=0.66)PC
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(r=0.64)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW EXT 120°.s-1 (J) |
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(r=0.74)PC
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(r=0.74)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW FLE 120°.s-1 (J) |
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(r=0.63)PC
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(r=0.60)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT EXT 240°.s-1 (N.m) |
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(r=0.87)PC
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(r=0.89)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT FLE 240°.s-1 (N.m) |
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(r=0.70)PC
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(r=0.66)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW EXT 240°.s-1 (J) |
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(r=0.82)PC
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(r=0.84)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW FLE 240°.s-1 (J) |
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(r=0.58)PC
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(r=0.53)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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EXC PT EXT 60°.s-1 (N.m)# |
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(r=0.50)PC
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(r=0.48)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON PT FLE 60°.s-1 (N.m)# |
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(r=0.54)PC
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(r=0.54)PC
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Yapici et al.1010. Yapici A, Findikoglu G, Dundar U. Does iskonetic angular velocity and contraction types effect predictors of different anaerobic power tests? J. Sports Med. Phys. Fitness. 2014.
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CON TW FLE 60°.s-1 (J)# |
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(r=0.42)PC
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(r=0.43)PC
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Sattler et al.1111. Sattler T, Sekulic D, Spasic M, Osmankac N, Vicente Joao P, Dervisevic E, et al. Isokinetic knee strength qualities as predictors of jumping performance in high-level volleyball athletes: multiple regression approach. J. Sports Med. Phys. Fitness. 2016;56(1-2):60-69.
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PT 60°.s-1 (N.m.kg-1) - (M) |
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(R²=0.37)LR
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(R²=0.36)LR
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Sattler et al.1111. Sattler T, Sekulic D, Spasic M, Osmankac N, Vicente Joao P, Dervisevic E, et al. Isokinetic knee strength qualities as predictors of jumping performance in high-level volleyball athletes: multiple regression approach. J. Sports Med. Phys. Fitness. 2016;56(1-2):60-69.
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PT 60°.s-1 (N.m.kg-1) - (F) |
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(R²=0.42)LR
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(R²=0.39)LR
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D' Alessandro et al.1212. D’Alessandro RL, Silveira EAP, Anjos MTS dos, Silva AA da, Fonseca ST da. Analysis on the association between isokinetic dynamometry of the knee’s articulation and one-leg horizontal jump, hop test, in volleyball athletes. Rev. Bras. Med. do Esporte. 2005;11(5):271-275
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Right Leg PT 60°.s-1 (N.m) - (M) |
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(r=0.54)PC
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D' Alessandro et al.1212. D’Alessandro RL, Silveira EAP, Anjos MTS dos, Silva AA da, Fonseca ST da. Analysis on the association between isokinetic dynamometry of the knee’s articulation and one-leg horizontal jump, hop test, in volleyball athletes. Rev. Bras. Med. do Esporte. 2005;11(5):271-275
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Right Leg TW 60°.s-1 (J) - (M) |
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(r=0.56)PC
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D' Alessandro et al.1212. D’Alessandro RL, Silveira EAP, Anjos MTS dos, Silva AA da, Fonseca ST da. Analysis on the association between isokinetic dynamometry of the knee’s articulation and one-leg horizontal jump, hop test, in volleyball athletes. Rev. Bras. Med. do Esporte. 2005;11(5):271-275
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Right Leg PT 60°.s-1 (N.m) - (F) |
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(r=0.72)PC
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D' Alessandro et al.1212. D’Alessandro RL, Silveira EAP, Anjos MTS dos, Silva AA da, Fonseca ST da. Analysis on the association between isokinetic dynamometry of the knee’s articulation and one-leg horizontal jump, hop test, in volleyball athletes. Rev. Bras. Med. do Esporte. 2005;11(5):271-275
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Right Leg TW 60°.s-1 (J) - (F) |
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(r=0.80)PC
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Laudner et al.1313. Laudner K, Evans D, Wong R, Allen A, Kirsch T, Long B, et al. Relationship between isokinetic knee strength and jump characteristics following anterior cruciate ligament reconstruction. Int. J. Sports Phys. Ther. 2015 Jun;10(3):272-280.
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EXT PT 180°.s-1 (N.m.kg-1) |
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(r=0.71)MRA
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(r=0.64)MRA
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(r=0.63)MRA
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Laudner et al.1313. Laudner K, Evans D, Wong R, Allen A, Kirsch T, Long B, et al. Relationship between isokinetic knee strength and jump characteristics following anterior cruciate ligament reconstruction. Int. J. Sports Phys. Ther. 2015 Jun;10(3):272-280.
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EXT PT 300°.s-1 (N.m.kg-1) |
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(r=0.74)MRA
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(r=0.63)MRA
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(r=0.73)MRA
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Laudner et al.1313. Laudner K, Evans D, Wong R, Allen A, Kirsch T, Long B, et al. Relationship between isokinetic knee strength and jump characteristics following anterior cruciate ligament reconstruction. Int. J. Sports Phys. Ther. 2015 Jun;10(3):272-280.
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FLE PT 180°.s-1 (N.m.kg-1) |
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(r=0.53)MRA
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(r=0.58)MRA
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(r=0.39)MRA
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Laudner et al.1313. Laudner K, Evans D, Wong R, Allen A, Kirsch T, Long B, et al. Relationship between isokinetic knee strength and jump characteristics following anterior cruciate ligament reconstruction. Int. J. Sports Phys. Ther. 2015 Jun;10(3):272-280.
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FLE PT 300°.s-1 (N.m.kg-1) |
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(r=0.49)MRA
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(r=0.45)MRA
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(r=0.56)MRA
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT a 30° 180°.s-1 (N.m) |
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(r=0.46)PC
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT a 30° 60°.s-1 (N.m) |
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(r=0.45)PC
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT a 180°.s-1 (N.m) |
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(r=0.42)PC
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT a 60°.s-1 (N.m) |
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(r=0.41)PC
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT a 30° 180°.s-1 (N.m) |
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(r=0.40)PC
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Li et al.1414. Li RC, Maffulli N, Hsu YC, Chan KM. Isokinetic strength of the quadriceps and hamstrings and functional ability of anterior cruciate deficient knees in recreational athletes. Br. J. Sports Med. 1996 Jun;30(2):161-164.
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ΔFLE PT acceleration energy |
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(r=0.35)PC
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